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Index • Volume 79 • 2002
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Index • Volume 79 • 2002 Feature Columns and Their Editors Advanced Chemistry Classroom & Laboratory (ACL) Applications & Analogies (AA) Association Reports: 2YC3 (2YC3) ACS Division of Chemical Education (ACS) Council on Undergraduate Research Book & Media Reviews (BMR) Chemical Education Research (CER)
Chemical Information Instructor (CII) Chemical Laboratory Information Profile (CLIP) Chemical Principles Revisited (CPR) Chemistry for Kids (CFK) Commentary Computer Bulletin Board (CBB) Concepts in Biochemistry (CIB) Cost-Effective Teacher (CET) Curricular Change Digets (CCD) Especially for High School Teachers (EHST) From Past Issues (FPI) Green Chemistry Interdisciplinary Connections (IC) JCE Buyers Guide JCE Classroom Activity (JCE Activity) JCE Online JCE Software The Microscale Lab (ML) Molecular Modeling Exercises & Experiments (MMEE) NSF Highlights (NSF)
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Joseph J. BelBruno Ronald DeLorenzo & Arthur M. Last Ann Cartwright Jerry L. Sarquis Judith Halstead Jeffrey Kovac Diane M. Bunce (chair) Christopher F. Bauer Amy J. Phelps Kathryn C. Scantlebury Vickie M. Williamson Arleen N. Somerville & Andrea Twiss-Brooks Jay A. Young Cary Kilner John T. Moore & David Tolar Elizabeth A. Moore Steven D. Gammon William M. Scovell Hal Harris Baird W. Lloyd Diana S. Mason & Erica K. Jacobsen Kathryn R. Williams Mary M. Kirchhoff Mark Alber Hal Harris Nancy S. Gettys & Erica K. Jacobsen Jon L. Holmes Jon L. Holmes & Nancy S. Gettys R. David Crouch Ronald Starkey Richard F. Jones & Susan Hixson
Only@JCE Online Features: Biographical Snapshots of Famous Women & Minority Chemists Chem. Education Resource Shelf Conceptual Questions and Challenge Problems Hals’ Picks JCE Discussion Forums
JCE HS CLIC JCE WebWare Mathcad in the Chemistry Curriculum (MCAD) Monthly Molecule Project CHEMLAB Annotated Database WWW Site Reviews Overhead Projector Demos (OPD) Products of Chemistry (POC) Project CHEMLAB Reports from Other Journals: Chem 13 News (ROJ13News) Nature (ROJNature) News from Online (ROJOnline) The Physics Teacher (ROJPhysTea) Science Education Research Literature (ROJResLit) The Science Teacher (ROJSciTea) Resources for Student Assessment (RSA) Safety Tips (ST) Second-Year & AP Chemistry (2AP) Secondary School Chemistry (SSC) Teaching with Problems and Case Studies (TPCS) Teaching with Technology (TECH) Tested Demonstrations (TD) Topics in Chem. Instrum. (TICI) View from My Classroom (VIEW)
Barbara A. Burke Hal Harris William R. Robinson & Susan C. Nurrenbern Hal Harris Jon L. Holmes Nancy S. Gettys Stephen Hawkes Erica K. Jacobsen James Spencer Erica K. Jacobsen William F. Coleman & Randall J. Wildman Theresa Julia Zielinski William F. Coleman Carolyn B. Allen & Jon L. Holmes David B. Shaw Doris K. Kolb George B. Kauffman Carolyn B. Allen Kathy Thorsen Sabine Heinhorst & Gordon Cannon Carolyn Sweeney Judd Roy W. Clark William R. Robinson Steve Long John J. Alexander Timothy Champion John Fischer Diana S. Mason Grant Krow & Kim Kostka Gabriela Weaver Edward Vitz David A. Treichel David L. Byrum
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
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Volume 79 • 2002 • Author Index
Author Index* A Adams, D. L.; Gallagher, G. J. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) November, 1368–1371. Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Adewale, S. M.; Talaty, E. R.; Boese, C. A.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224. Adhyaru, B.; Williams, K. R.; German, I.; Alvarez, E. The Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. March, 372–373. Adhyaru, B.; Williams, K. R.; German, I.; Russell, T. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. December, 1475–1476. Adhyaru, B.; Williams, K. R.; Pierce, R. E.; Schulman, S. G. The Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. January, 115– 116. Aiken, K. S.; Truran, G. A.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. January, 85–86. Alcaraz, A. A.; Hilgeman, F. R. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. January, 78– 80. Aledo, J. C.; Esteban del Valle, A. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. November, 1336–1339. Allen, D.; Oliver-Hoyo, M. T. Fingerprinting: Commercial Products and Elements. (AA) April, 459–461. Allendoerfer, R. D. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) May, 638–639. Allin, S. B. Applied Polymer Science: 21st Century (edited by Clara D. Craver and Charles E. Carraher, Jr.). (BMR) August, 942. Alvarez, E.; Williams, K. R.; Adhyaru, B.; German, I. The Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. March, 372–373. Amburgey-Peters, J. C. Implementing Temporary Facilities for Organic Chemistry Laboratory. May, 607–610. Amouri, H.; Cordier, C.; Thouvenot, R.; Gruselle, M. An ABMX Spin System Study: From Experimental to Calculated Spectra. February, 234–238. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Andersen, N. P.; Sielemann, M.; Keiding, K. Modeling pH in Natural Waters. (MCAD) April, 528. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. August, 976–979. Aragon, E.; Hatcher-Skeers, M. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. April, 462–464. Arasashingham, R.; Taagepera, M.; Potter, F.; Soroudi, A.; Lam, G. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) June, 756–762. Ardac, D. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) April, 510–513. Ardon, M.; Hayes, P. D.; Hogarth, G. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An Intermediate-Level Organometallic–Inorganic Experiment. October, 1249–1251.
*The Author Index lists each article by author, title, month, and page number. A key to the abbreviations is on page 1490.
Arends, I. W.; Stetca, D.; Hanefeld, U. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. November, 1351–1352. Assarpour, A.; Seaton, P. J.; Williamson, R. T.; Mitra, A. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. January, 106–110. Atwood, D. A.; Hutchison, A. R. Research with Firstand Second-Year Undergraduates: A New Model for Undergraduate Inquiry at Research Universities. January, 125–126. Atwood, D. A.; Otieno, T.; Hutchison, A. R.; Krepps, M. K. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. November, 1355–1357. Ault, A. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) September, 1070. Ault, A. The Nobel Prize in Chemistry for 2001. May, 572–577. Ault, A. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) March, 311. Ault, A. What’s Wrong with Cookbooks? (Commentary) October, 1177.
B Baker, G. A.; Crane, N. J.; Mayrhofer, R. C.; Betts, T. A. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. October, 1261– 1263. Baldwin, B. W.; Wilhite, D. M. Triboluminescent Crystals from the Microwave Oven. November, 1344. Ball, D. B.; Miller, R. M. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) June, 665– 666. Ball, D. B.; Wilson, R. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. January, 112–114. Banks, A. J.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Baptista, M. S.; Schneider, T.; Politi, M. J. A SmartLaser-Based Calorimeter. (TICI) April, 503–505. Barbara, P. F.; Harbron, E. J. The Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. February, 211– 213. Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) May, 551–552. Bauer, C.; Paolini, M.; Cercignani, G. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) February, 163. Beachy, T. M.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Beamer, T. W.; McRae, R.; Rahn, J. A.; LeBret, N. The Liquid Nitrogen Fountain. (TD) October, 1220– 1221. Beery, J.; Selco, J. I. Saving a Drug Poisoning Victim: A Kinetics Simulation. May, 578–582. Bernal, P. J. Chemical Sciences in the 20th Century: Bridging Boundaries (edited by Carsten Reinhardt). (BMR) April, 433. Bernal, P. J. Foundations of Chemistry: Special Issue on the Periodic System (edited by Eric R. Scerri). (BMR) December, 1420. Bernal, P. J. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) September, 1075–1076. Berry, D. E.; Patenaude, G. W. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. April, 498–499. Bertolini, T. Epoxide Reactions. (RSA) July, 828. Bertotti, M.; Lowinsohn, D. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. January, 103–105. Betts, T. A.; Crane, N. J.; Mayrhofer, R. C.; Baker, G. A. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. October, 1261– 1263.
Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Bhat, C.; Gaglione, O. G. Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC3) July, 795. Bindel, T. H. Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) April, 468–472. Birdwhistell, K. R.; Harper, B. A.; Rainwater, J. C.; Knight, D. A. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. June, 729–731. Birdwhistell, K. R.; Spence, T. G. A New Glow on the Chromatography of M&M Candies. July, 847. Birkett, D. The Chemistry of Optical Discs. (POC) September, 1081–1087. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. May, 584–587. Blitz, J. P.; Klarup, D. G. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. November, 1358–1360. Boese, C. A.; Talaty, E. R.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224. Boggess, B. Applications of Inorganic Mass Spectrometry (by John R. de Laeter). (BMR) October, 1206– 1207. Bohn, M. L.; Colombo, M. I.; Rúveda, E. A. The Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. April, 484–485. Bolstad, D. B.; Diaz, A. L. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. September, 1101–1104. Bonicamp, J. M. Weigh This Way. April, 476. Boo, W. O.; Mattern, D. L. Generating Closed Shapes from Regular Tilings. August, 1017–1023. Boone, S. R.; Giffin, G. A.; Cole, R. S.; McKay, S. E.; Kopitzke, R. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. July, 813–819. Booth, D.; Bateman, R. C.; Sirochman, R.; Richardson, J.; Richardson, D. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) May, 551–552. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. April, 494–497. Bower, N. W.; Heimbuck, C. A. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. October, 1254–1256. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. May, 619–622. Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) April, 514–519. Bretz, S. L. Implementing the Professional Development Standards. An Innovative M.S. Degree for High School Chemistry Teachers. November, 1307–1309. Brindley, S.; Saxon, C.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214– 1216. Broadwater, S. J.; Wladkowski, B. D. Determination of the Rotameric Stability of 1,2-Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. February, 230–233. Brown, E. N. Interdisciplinary Research: A Student’s Perspective. (Commentary) January, 13–15. Browne, L. M.; Jacobsen, J. J.; Moore, J. W.; Zimmerman, J. F. Chemistry Comes Alive! Volume 6. (JCE Software) November, 1381–1384.
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Author Index • Volume 79 • 2002 Brummond, C. A.; Martin, W. B.; Kateley, L. J.; Wiser, D. C. Microscale Synthesis of a Diphenylisoxazoline by a 1,3-Dipolar Cycloaddition. (ML) February, 225– 227. Bryant, R. G.; Borer, L. L.; Russell, J. G.; Settlage, R. E. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. April, 494–497. Buntrock, R. E. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) April, 431–432. Burden, M. A.; Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A. A Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. August, 985–988. Burke, B. A.; Walton, E. Modeling Effective Teaching and Learning in Chemistry. (NSF) February, 155–156. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. The Multi-Initiative Dissemination Project: ActiveLearning Strategies for College Chemistry. June, 699. Burneau, A.; Phambu, N.; Humbert, B. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. September, 1117–1118.
C Çakmak, A. Ö.; Taralp, A.; Türkseven, C. H.; Çengel, Ö. Introducing Freshmen Students to the Practice of Solid-Phase Synthesis. January, 87–89. Calascibetta, F.; Andreoli, K.; Campanella, L.; Favero, G.; Occhionero, F. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. August, 976–979. Campanella, L.; Andreoli, K.; Calascibetta, F.; Favero, G.; Occhionero, F. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. August, 976–979. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. Spontaneous Assembly of Soda Straws. February, 201–202. Campbell, D. J.; Querns, M. K. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) January, 76–77. Campbell, S.; Muzyka, J. Chemistry Game Shows. April, 458. Cannon, G.; Heinhorst, S. Nature: Clean Up Your Act with Chemistry. (ROJNature) October, 1170–1171. Cannon, G.; Heinhorst, S. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) January, 10–12. Cardellini, L. An Interview with J. Dudley Herron. January, 53–59. Carroll, F. A.; Blauch, D. N.; Schuh, M. D. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. May, 584–587. Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. Acid– Base Reactions with Carbon Dioxide. (JCE Classroom Activity) December, 1464A–1464B. Casey, C. P. ACS Presidential Election: Statement on Education—A Core Commitment of Chemists and the ACS. September, 1036. Castanho, M. A. Teaching Molecular Applications of the Particle-in-a-Ring Model Using Azulene. September, 1092. Caswell, M. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) April, 432. Caswell, M. Everybody Wins! 2nd Edition (by Gordon Cain). (BMR) May, 561. Cavalheiro, É. T.; Soares, M. H.; Ramos, L. A. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. September, 1111–1113. Celzard, A.; Marêché, J. F. Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) July, 854– 859. Çengel, Ö.; Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö. Introducing Freshmen Students to the Practice of Solid-Phase Synthesis. January, 87–89. Cercignani, G.; Paolini, M.; Bauer, C. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) February, 163. Cerpovicz, P. F.; Deal, S. T.; Farmer, C. E. Carbohydrate Analysis: Can We Control the Ripening of Bananas? April, 479–480.
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JCE Online Index: http://JChemEd.chem.wisc.edu
Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. April, 489–491. Chabayta, R.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Chadwick, J. E.; Magner, J. T.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. The FLASH Consortium. (2YC3) May, 544–547. Chang, M.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Chapman, S. Flickering Clusters: Women, Science, and Collaborative Transformations (edited by Cheryl Ney, Jacqueline Ross, and Laura Stempel). (BMR) August, 943–944. Chen, W.; Schueneman, S. M. Environmentally Responsive Hydrogels. July, 860–862. Chen, Y.; Yaung, J. Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. July, 848–850. Chickering, J.; Magner, J. T.; Chadwick, J. E.; Collins, C.; Su, T.; Villarba, M. The FLASH Consortium. (2YC3) May, 544–547. Choi, M. M. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) August, 992–993. Choi, M. M.; Wong, P. S. Application of Datalogger in Biosensing: A Glucose Biosensor. August, 982–984. Choi, M. M.; Wong, P. S.; Yiu, T. P. Application of Datalogger in Observing Photosynthesis. (TD) August, 980–981. Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768. Clague, A.; Pohl, N. L.; Schwarz, K. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. June, 727–728. Clark, R. W. FX Chem 2 (by Efofex Software). (BMR) December, 1421–1422. Clark, R. W. The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) February, 154. Cline, J.; Harrington, P. d.; Kolbrich, E. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. July, 863–864. Cole, R. S.; Giffin, G. A.; Boone, S. R.; McKay, S. E.; Kopitzke, R. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. July, 813–819. Coleman, W. F.; Wildman, R. J. Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) December, 1486. Coleman, W. F.; Wildman, R. J. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) September, 1071. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: August 2002. (JCE WebWare) August, 1024. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: December 2002—Nitric Oxide-Releasing Compounds. (JCE WebWare) December, 1470. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: July 2002. (JCE WebWare) July, 896. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: November 2002. (JCE WebWare) November, 1384. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: October 2002. (JCE WebWare) October, 1246. Coleman, W. F.; Wildman, R. J. Featured Molecule of the Month: September 2002. (JCE WebWare) September, 1152. Coleman, W. F.; Wildman, R. J. Linking JCE WebWare to JCE Articles. (JCE WebWare) June, 768. Coleman, W. F.; Wildman, R. J. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) November, 1379. Coleman, W. F.; Wildman, R. J. Where Does WebWare Stand Today? (JCE WebWare) August, 1023–1024.
Coles, D. R.; Olchowicz, J. C.; Kain, L. E.; MacDonald, G. Using Infrared Spectroscopy to Investigate Protein Structure. March, 369–371. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. April, 520–523. Collins, C.; Magner, J. T.; Chadwick, J. E.; Chickering, J.; Su, T.; Villarba, M. The FLASH Consortium. (2YC3) May, 544–547. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. June, 731–734. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. The Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. April, 484–485. Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. An Efficient Composition for Bengal Lights. (TD) January, 70–73. Comstock, M. G.; Kerr, J. R.; Gray, J. A. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) April, 500–502. Conover, W. Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) June, 679–680. Conover, W. Chemistry, 2nd Edition (by Rob Lewis and Wynne Evans). (BMR) April, 437–438. Cooper, M. M.; Sarquis, J. L.; Hoffman, M. Z. Executive Committee Report, September 2002. (ACS) December, 1410–1412. Coppola, B. P.; Kovac, J. D.; Pagni, R. M.; Harris, H. H. Summer Reading. June, 648–659. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. An ABMX Spin System Study: From Experimental to Calculated Spectra. February, 234–238. Correia, A. F.; Paiva, J. C.; Gil, V. M. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) May, 640. Correia, A. F.; Paiva, J. C.; Gil, V. M. The Right Shift? A Problem in Chemical Equilibrium. (RSA) May, 583. Cortés-Figueroa, J. E.; Moore, D. A. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. December, 1462–1464. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. A Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. September, 1105–1108. Coussens, B. B.; van Haaren, R. J.; Reek, J. N.; Oevering, H.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. Cox, A. L.; Cox, J. R. Determining Oxidation–Reduction on a Simple Number Line. August, 965–967. Cox, J. R.; Cox, A. L. Determining Oxidation–Reduction on a Simple Number Line. August, 965–967. Craig, N. C. Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. August, 953– 955. Craig, N. C.; Gislason, E. A. First Law of Thermodynamics; Irreversible and Reversible Processes. February, 193–200. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. October, 1261– 1263. Croce, A. E. The Application of the Concept of Extent of Reaction. April, 506–509. Crouch, R. D. Stereochemistry (by David G. Morris). (BMR) February, 167. Crouch, R. D.; Holden, M. S. An Organic Puzzle Using Meldrum’s Acid. (ML) April, 477–478. Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Crumbliss, A. L. From Coello to Inorganic Chemistry: A Lifetime of Reactions (Profiles in Inorganic Chemistry) (by Fred Basolo). (BMR) October, 1206. Crutchfield, C. A. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) October, 1202. Cui, Y.; Hu, D.; Fang, Y. A Simple Apparatus for Gravitational Sedimentation. (CET) May, 623–625. Curtis, M. P.; Anam, K. T.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Explo-
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html ration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Cusworth, W.; Nyasulu, F.; Macklin, J. The Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. March, 356–359.
D D’Amico, T.; Donahue, C. J.; Exline, J. A. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tertButyl Ether. June, 724–726. D’Andrea, G.; Di Nicolantonio, G. A Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. August, 972–975. Daizadeh, I.; Kossida, S.; Tahri, N. Bioinformatics by Example: From Sequence to Target. December, 1480– 1485. Danielson, N. D.; Lorigan, G. A.; Patterson, B. M.; Sommer, A. J. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) October, 1264–1266. Danylec, B.; Iskander, M. N. 1H NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. August, 1000–1001. Davenport, D. A. Linus Pauling: Scientist and Peacemaker. A Centenary Volume (edited by Clifford Mead and Thomas Hager). (BMR) August, 946–948. Davenport, D. A. Linus Pauling: Selected Scientific Papers (World Scientific Series in 20th Century Chemistry, Volume 10) (editor-in-chief Barclay Kamb). (BMR) August, 946–948. Davenport, D. A. Profiles in Science: The Linus Pauling Papers (by National Library of Medicine). (BMR) August, 946–948. Davenport, D. A. The Research Notebooks of Linus Pauling (Digitized and released online by Oregon State University Special Collections). (BMR) August, 946– 948. Dávila, R. M.; Widener, R. K. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. August, 997–999. Davis, T. V.; Zaveer, M. S.; Zimmer, M. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. October, 1278–1280. de Levie, R.; Salter, C. Nonlinear Fits of Standard Curves: A Simple Route to Uncertainties in Unknowns. February, 268–270. de Mattos, M. C.; Nicodem, D. E. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) September, 1070. de Mattos, M. C.; Nicodem, D. E. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. January, 94–95. Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. Carbohydrate Analysis: Can We Control the Ripening of Bananas? April, 479–480. DeBoise, K. L.; Crowley, J. P.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. DeKock, R. L.; Rioux, F. Response to Lowe’s PotentialEnergy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) April, 429–430. DeKock, R. L.; Rioux, F. Response to Potential-EnergyOnly Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) January, 29–30. DeMeo, S. Using Limiting–Excess Stoichiometry to Introduce Equilibrium Calculations: A Discrepant Event Laboratory Activity Involving Precipitation Reactions. April, 474–475. Dempich, J. C.; Porter, V. J.; Sanft, P. M.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Denyer, G. S.; Hancock, D. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) August, 961–964. Derrick, F. W.; Derrick, M. E. Predictors of Success in Physical Chemistry. (CER) August, 1013–1016. Derrick, M. E.; Derrick, F. W. Predictors of Success in Physical Chemistry. (CER) August, 1013–1016. Dettmer, D. D.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wis-
Volume 79 • 2002 • Author Index dom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Deutsch, H. M.; Collard, D. M.; Girardot, S. P. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. April, 520–523. Di Nicolantonio, G.; D’Andrea, G. A Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. August, 972–975. Diaz, A. L.; Bolstad, D. B. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. September, 1101–1104. DiBiase, W. J.; Wagner, E. P.; Sasser, H. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) June, 749–755. Diehl, K.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Digilov, R. Quantifying Meniscus Forces with an Electronic Balance: Direct Measurement of Liquid Surface Tension. A Physical Chemistry Experiment. March, 353–355. Doerrer, L. H. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) July, 806–807. Doerrer, L. H. Transition Metal Carbonyl Cluster Chemistry (by Paul J. Dyson and J. Scott McIndoe). (BMR) June, 677–678. Donahue, C. J. Fractional Distillation and GC Analysis of Hydrocarbon Mixtures. June, 721–723. Donahue, C. J.; D’Amico, T.; Exline, J. A. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tertButyl Ether. June, 724–726. Dorland, L. News from Online: What’s New with Chime? (ROJOnline) July, 778–782. Doyle, M. P. Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) September, 1038–1044. Driver, M. J.; Lewis, A. L. Blending in with the Body. (POC) March, 321–326. Dubauskie, N. A.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Myster, S. T.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Dunn, S. K. Variational Method Applied to the Harmonic Oscillator. (MCAD) November, 1378. Dunnivant, F. M. Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. June, 718–720. Dunnivant, F. M.; Kettel, J. An Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. June, 715–717.
E Earley, J. E. Chemistry for the 21st Century (edited by Ehud Keinan and Israel Schechter). (BMR) January, 33. East, G. A.; Nascimento, E. C. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) January, 100–102. Eberlein, T. H. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) October, 1204–1205. Edmiston, P. L. A New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) May, 616–618. Egolf, B. P.; Vitz, E. LIMSport: Optimizing a WindowsBased Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) September, 1060–1062. Eisenbraun, E. J.; Payne, K. W.; Lucas, J. M. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. February, 217. Eisenstein, O.; Watson, L. Entropy Explained: The Origin of Some Simple Trends. October, 1269–1277. Ellis, A. B. “Real-Time” Chemistry and Chemical Education. (Commentary) September, 1034–1035. Elrod, M. J. Survival Guide for Physical Chemistry (by Michelle Francl). (BMR) September, 1074–1075. Erickson, A. E.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Dubauskie, N. A.; Myster, S. T.;
Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Esteban del Valle, A.; Aledo, J. C. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. November, 1336–1339. Evenson, A. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) July, 822–823. Exharos, G. J.; Bozlee, B. J.; Jimenez, A. E.; van Swam, S. L. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. May, 619–622. Exline, J. A.; Donahue, C. J.; D’Amico, T. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tertButyl Ether. June, 724–726.
F Fahlman, B. D. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. February, 203–206. Fan, X.; Witter, A. E.; Klinger, D. M.; Lam, M.; Mathers, D. T.; Mabury, S. A. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257–1260. Fang, Y.; Hu, D.; Cui, Y. A Simple Apparatus for Gravitational Sedimentation. (CET) May, 623–625. Farmer, C. E.; Deal, S. T.; Cerpovicz, P. F. Carbohydrate Analysis: Can We Control the Ripening of Bananas? April, 479–480. Favero, G.; Andreoli, K.; Calascibetta, F.; Campanella, L.; Occhionero, F. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. August, 976–979. Feller, S. E.; Taylor, A. T. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. December, 1467–1470. Ferrières, V.; Penverne, C. Synthesis of 4-Methylumbellifer-7-yl-α-D-Mannopyranoside: An Introduction to Modern Glycosylation Reactions. November, 1353–1354. Ferriols-Pavico, J. M. DeLorenzo’s Four Interesting Mysteries Verified. October, 1217–1219. Fisher, M. A.; Johnston, D.; Ritt, D. A. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. March, 374–376. Fleischer, J. M. Organic Spectroscopy—A Capstone Experience. October, 1247–1248. Fleming, T. R.; Truran, G. A.; Aiken, K. S.; Webb, P. J.; Markgraf, J. H. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. January, 85–86. Flint, E. B.; Kortz, C. L.; Taylor, M. A. Microscale pH Titrations Using an Automatic Pipet. (ML) June, 705– 706. Forsyth, D. A.; Tilley, L. J.; Prevoir, S. J. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. May, 593–600. Fosdick, L. D.; Lamberti, V. E.; Jessup, E. R.; Schauble, C. J. A Hands-On Introduction to Molecular Dynamics. May, 601–606. Francis, T. A.; Miles, D. G. A Survey of Computer Use in Undergraduate Physical Chemistry. December, 1477–1479. Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) February, 248–257. Franzyk, H.; Christensen, S. B.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768. Frech, C. B. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) September, 1072. Freidinger, E. R.; Campbell, D. J.; Hastings, J. M.; Querns, M. K. Spontaneous Assembly of Soda Straws. February, 201–202. Frølund, B.; Christensen, S. B.; Franzyk, H.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768.
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Author Index • Volume 79 • 2002 Fromer, I.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Fucaloro, A. F. Partial Molar Volumes from Refractive Index Measurements. July, 865–868. Fuzellier, H.; Comet, M.; Schreyeck-Reinert, L. An Efficient Composition for Bengal Lights. (TD) January, 70–73.
G Gaglione, O. G.; Bhat, C. Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC3) July, 795. Galagovsky, L.; Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J. A Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. September, 1105–1108. Gallagher, G. J.; Adams, D. L. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) November, 1368–1371. Gani, N.; Khanam, J. Are Surfactant Molecules Really Oriented in the Interface? (TD) March, 332–333. Gano, A. J.; Gano, J. E.; Garry, P.; Sekher, P. Small Scale Reactor for Ultraviolet Photochemistry. (CET) November, 1361. Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. Small Scale Reactor for Ultraviolet Photochemistry. (CET) November, 1361. Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L.; Roberts, J. R. A Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. March, 366–368. Garry, P.; Gano, J. E.; Gano, A. J.; Sekher, P. Small Scale Reactor for Ultraviolet Photochemistry. (CET) November, 1361. Gasyna, Z. L.; Light, J. C. Application of the WKB Approximation in the Solution of the Schrödinger Equation. January, 133–134. Geer, K.; Sanger, M. J. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. August, 994–996. Geiger, P. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) July, 805–806. Geiger, P. A Serious but Not Ponderous Book about Nuclear Energy (by Walter Scheider). (BMR) March, 314–315. Geng, X.; Zebolsky, D. M. The Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. March, 385–388. German, I.; Williams, K. R.; Adhyaru, B.; Alvarez, E. The Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. March, 372–373. German, I.; Williams, K. R.; Adhyaru, B.; Russell, T. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. December, 1475–1476. Gettys, N. S.; Holmes, J. L. Prospectus 2002. (JCE Software) February, 271–272. Ghaffari, A. H.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. September, 1122–1126. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. July, 813–819. Gil, V. M.; Paiva, J. C.; Correia, A. F. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) May, 640. Gil, V. M.; Paiva, J. C.; Correia, A. F. The Right Shift? A Problem in Chemical Equilibrium. (RSA) May, 583. Gillespie, R. J.; Matta, C. F. Understanding and Interpreting Molecular Electron Density Distributions. September, 1141–1152. Girardot, S. P.; Collard, D. M.; Deutsch, H. M. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. April, 520–523.
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Gislason, E. A.; Craig, N. C. First Law of Thermodynamics; Irreversible and Reversible Processes. February, 193–200. Glasser, L. Equations of State and Phase Diagrams. July, 874–876. Goedhart, M. J.; Joling, E.; van den Berg, B.; van der Spek, T. M. A Low-Cost and Timesaving Microscale Heater. (ML) September, 1109–1110. Gonzalez, S. O.; Simanek, E. E. Dendrimers: Branching Out of Polymer Chemistry. October, 1222–1231. Gooch, E. E. Carbohydrates: The Sweet Molecules of Life (by Robert V. Stick). (BMR) May, 562–563. Gooch, E. E. Chemistry and Warfare: A General Studies Course. (CCD) July, 820–821. Gooch, E. E. Experiments in Organic Chemistry, 2nd Edition (by Richard K. Hill and J. Barbaro). (BMR) November, 1320–1321. Goodwin, A. Is Salt Melting When It Dissolves in Water? March, 393–396. Gordon, J. S.; Harman, S. A Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. May, 611–612. Gordon, J. S.; James, A.; Harman, S.; Weiss, K. A Film Canister Colorimeter. (CET) August, 1005–1006. Gorin, G. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) February, 163. Gray, J. A.; Comstock, M. G.; Kerr, J. R. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) April, 500–502. Greenbowe, T. J.; Burke, K. A.; Lewis, E.; Peace, G. E. The Multi-Initiative Dissemination Project: ActiveLearning Strategies for College Chemistry. June, 699. Grguric, G. Denitrification as a Model Chemical Process. February, 179–182. Grivet, J. The Hydrogen Molecular Ion Revisited. January, 127–132. Groves, S.; Settle, F. A. The Avtex Saga: National Security versus Environmental Protection. June, 685–691. Gruselle, M.; Cordier, C.; Thouvenot, R.; Amouri, H. An ABMX Spin System Study: From Experimental to Calculated Spectra. February, 234–238. Grushow, A.; Zielinski, T. J. Hydrogen Bonding Using NMR: A New Look at the 2,4-Pentanedione Keto– Enol Tautomer Experiment. June, 707–714. Guzmán-Casado, M.; Parody-Morreale, A. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. March, 327–331.
H Hagen, J. P.; Volaric, L. The Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. January, 91–93. Haim, L.; Cortón, E.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. A Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. September, 1105–1108. Hall, M.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Halpern, A. M. Rare Gas Viscosities: A Learning Tool. February, 214–216. Han, L.; Maye, M. M.; Luo, J.; Zhong, C. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. February, 207– 210. Hancock, D.; Denyer, G. S. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) August, 961–964. Hanefeld, U.; Stetca, D.; Arends, I. W. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. November, 1351–1352. Hanks, T. W.; Wright, L. L. Techniques in Chemistry: The Centerpiece of a Research-Oriented Curriculum. September, 1127–1130. Hanson, J.; Hoyt, T. Unknown Gases: Student-Designed Experiments in the Introductory Laboratory. July, 845–846. Hanson, R. M. The Chemical Name Game. (JCE WebWare) November, 1380. Hanson, R. M. Hückel Determinant Solver. (JCE WebWare) November, 1379. Hanson, R. M. Mechanism-Based Kinetics Simulator. (JCE WebWare) November, 1379. Hanson, R. M. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) December, 1486.
Hanson, R. M. What’s in a Name? (JCE WebWare) November, 1380. Harbron, E. J.; Barbara, P. F. The Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. February, 211– 213. Hardee, J. R.; Long, J.; Otts, J. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. May, 633–634. Harman, S.; Gordon, J. S. A Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. May, 611–612. Harman, S.; Gordon, J. S.; James, A.; Weiss, K. A Film Canister Colorimeter. (CET) August, 1005–1006. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. June, 729–731. Harrington, P. d.; Kolbrich, E.; Cline, J. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. July, 863–864. Harris, H. H. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman). (BMR) January, 35. Harris, H. H.; Kovac, J. D.; Pagni, R. M.; Coppola, B. P. Summer Reading. June, 648–659. Harvey, D. T. Analytical Chemistry in a GMP Environment: A Practical Guide (edited by James M. Miller and Jonathan B. Crowther). (BMR) December, 1419. Harvey, D. T. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. May, 613–615. Harvey, D. T. Two Experiments Illustrating the Importance of Sampling in a Quantitative Chemical Analysis. March, 360–363. Haskell, R. C.; Van Hecke, G. R.; Karukstis, K. K.; McFadden, C. S.; Wettack, F. S. An Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. July, 837–844. Hastings, J. M.; Campbell, D. J.; Freidinger, E. R.; Querns, M. K. Spontaneous Assembly of Soda Straws. February, 201–202. Hatcher-Skeers, M.; Aragon, E. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. April, 462–464. Havel, J.; Moya-Hernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Rojas-Hernández, A. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Hawkes, S. J. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) February, 162–163. Hayes, P. D.; Ardon, M.; Hogarth, G. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An Intermediate-Level Organometallic–Inorganic Experiment. October, 1249–1251. Hedge, R.; Garrett, E.; Wehr, A.; Roberts, D. L.; Roberts, J. R. A Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. March, 366–368. Heimbuck, C. A.; Bower, N. W. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. October, 1254–1256. Heinhorst, S.; Cannon, G. Nature: Clean Up Your Act with Chemistry. (ROJNature) October, 1170–1171. Heinhorst, S.; Cannon, G. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) January, 10–12. Herzfeld, J.; Olbris, D. J. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. October, 1232–1234. Hicks, B. W. News from Online: WWW Sites for Biochemistry Teachers. (ROJOnline) May, 536–539. Hilgeman, F. R.; Alcaraz, A. A. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. January, 78–80. Hirsch, W. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) February, 200A–200B. Hoffman, M. Z.; Sarquis, J. L.; Cooper, M. M. Executive Committee Report, September 2002. (ACS) December, 1410–1412. Hogarth, G.; Ardon, M.; Hayes, P. D. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An Intermediate-Level Organometallic–Inorganic Experiment. October, 1249–1251.
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/Journal/Search/index.html Hoggard, P. E. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) April, 420–421. Holden, M. S.; Crouch, R. D. An Organic Puzzle Using Meldrum’s Acid. (ML) April, 477–478. Holder, D. A.; Johnson, B. G.; Karol, P. J. A Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. April, 465–467. Holmes, J. L.; Adelman, N. B.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Holmes, J. L.; Gettys, N. S. Prospectus 2002. (JCE Software) February, 271–272. Hoogenboom, B. E.; Mulder, S. D.; Splittgerber, A. G. The Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. February, 218–220. Howard, I. K. H Is for Enthalpy, Thanks to Heike Kamerlingh Onnes and Alfred W. Porter. June, 697– 698. Howes, B.; O’Reilly, S. A.; Wilson, A. M. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) April, 524–526. Hoyt, T.; Hanson, J. Unknown Gases: Student-Designed Experiments in the Introductory Laboratory. July, 845–846. Hu, D.; Cui, Y.; Fang, Y. A Simple Apparatus for Gravitational Sedimentation. (CET) May, 623–625. Humbert, B.; Phambu, N.; Burneau, A. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. September, 1117–1118. Hurst, M. O. How We Teach Molecular Structure to Freshmen. June, 763–764. Hutchinson, J. S.; Wiediger, S. D. The Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) January, 120–124. Hutchison, A. R.; Atwood, D. A. Research with Firstand Second-Year Undergraduates: A New Model for Undergraduate Inquiry at Research Universities. January, 125–126. Hutchison, A. R.; Otieno, T.; Krepps, M. K.; Atwood, D. A. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. November, 1355–1357.
I Iacobucci, S.; Jaworek, C. Wittig Reaction: The Synthesis of trans-9-(2-Phenylethenyl)anthracene Revisited. (ML) January, 111. Ibanez, J. G. Using Proverbs in Chemistry. April, 454– 455. Infelta, P. The Second Law: Statement and Applications. July, 884–888. Irfan, M. J.; Anam, K. T.; Curtis, M. P.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Iskander, M. N.; Danylec, B. 1H NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. August, 1000–1001. Ismail, M. S.; Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Provenzano, F. A.; Utz, M. J. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224. Itami, Y.; Sone, K. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) August, 1002–1004.
J Jacobsen, E. K. Frontier Chemistry. (EHST) July, 777. Jacobsen, E. K. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. October, 1162–1167. Jacobsen, E. K. A New Crop of Opportunities. (EHST) October, 1161. Jacobsen, E. K. Spreading the Word. (EHST) January, 9. Jacobsen, J. J.; Adelman, N. B.; Holmes, J. L.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live!
Volume 79 • 2002 • Author Index 3rd Edition. (JCE Software) December, 1487–1488. Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. Chemistry Comes Alive! Volume 6. (JCE Software) November, 1381–1384. Jain, S. S.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Jakubowski, H. V. Understanding Biochemical Dissociation Constants: A Temporal Perspective. August, 968– 971. James, A.; Gordon, J. S.; Harman, S.; Weiss, K. A Film Canister Colorimeter. (CET) August, 1005–1006. Janaratne, T.; Liyanage, J. A. Chemical Speciation: A Guide to Understand Titrimetric Analysis. May, 635– 636. Jaroszewski, J. W.; Christensen, S. B.; Franzyk, H.; Frølund, B.; Stærk, D.; Vedsø, P. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768. Jasien, P. G.; Oberem, G. E. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) July, 889– 895. Jaworek, C.; Iacobucci, S. Wittig Reaction: The Synthesis of trans-9-(2-Phenylethenyl)anthracene Revisited. (ML) January, 111. JCE Editorial Staff. An After-Dinner Trick. (JCE Classroom Activity) April, 480A–480B. JCE Editorial Staff. Conant Award Interview: An Interview with Theresa Corley, 2002 Award Winner. September, 1046–1052. JCE Editorial Staff. Measurements for a Rainy Day. (JCE Classroom Activity) September, 1104A–1104B. JCE Editorial Staff. Through the Looking Glass. (JCE Classroom Activity) November, 1360A–1360B. Jensen, M. B. Integrating HPLC and Electrochemistry: A LabVIEW-Based Pulsed Amperometric Detection System. March, 345–348. Jensen, W. B. Holleman-Wiberg’s Inorganic Chemistry (edited by Nils Wiberg). (BMR) August, 944–946. Jervis, N.; Saxon, C.; Brindley, S.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214– 1216. Jessup, E. R.; Lamberti, V. E.; Fosdick, L. D.; Schauble, C. J. A Hands-On Introduction to Molecular Dynamics. May, 601–606. Jimenez, A. E.; Bozlee, B. J.; Exharos, G. J.; van Swam, S. L. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. May, 619–622. Johnson, B. G.; Holder, D. A.; Karol, P. J. A Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. April, 465–467. Johnson, J. L.; Yalkowsky, S. H. A Three-Dimensional Model for Water. (TD) September, 1088–1090. Johnson, K. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) January, 74–76. Johnson, M. P.; Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Johnston, D.; Fisher, M. A.; Ritt, D. A. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. March, 374–376. Joling, E.; Goedhart, M. J.; van den Berg, B.; van der Spek, T. M. A Low-Cost and Timesaving Microscale Heater. (ML) September, 1109–1110. Jones, D. E. Exams Institute Moves. (ACS) June, 671. Jones, G. R.; Saxon, C.; Brindley, S.; Jervis, N.; Morgan, E. D.; Ramsden, C. A. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214– 1216. Jones, K. A.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Jones, M. Jr.; Bradley, A. Z.; Ulrich, S. M.; Jones, S. M. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) April, 514–519.
Jones, R. F. Hi, I’m from the Administration and I’m Here to Help: My Journey to the Far Side. (2YC3) December, 1394–1395. Jones, R. F. Meeting Reports. 17th Biennial Conference on Chemical Education—Chemistry: The Elements of Change. December, 1407–1408. Jones, S. M.; Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) April, 514–519. Judd, C. S. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) October, 1179– 1181.
K Kain, L. E.; Olchowicz, J. C.; Coles, D. R.; MacDonald, G. Using Infrared Spectroscopy to Investigate Protein Structure. March, 369–371. Kalbus, G. E.; Lieu, V. T. A Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. April, 473. Kamer, P. C.; van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. Karol, P. J. The Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. January, 60–63. Karol, P. J.; Holder, D. A.; Johnson, B. G. A Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. April, 465–467. Karp, S. Research Is to Teaching …. (Letter) March, 310. Karty, J. M. A Guide to Classroom Instruction for Adjunct Faculty (by John H. Reed). (BMR) November, 1325–1326. Karty, J. M. Functional Group Chemistry (by James R. Hanson). (BMR) June, 678–679. Karukstis, K. K.; Van Hecke, G. R.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. An Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. July, 837–844. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. A Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. August, 985–988. Kateley, L. J.; Martin, W. B.; Wiser, D. C.; Brummond, C. A. Microscale Synthesis of a Diphenylisoxazoline by a 1,3-Dipolar Cycloaddition. (ML) February, 225– 227. Kauffman, G. B. Midgley—A Two-Time Environmental Loser. (Letter) May, 559. Kearns, K. A.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Keedy, C. R. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition (by Karl Heinrich Lieser). (BMR) January, 35–36. Keefer, L. K.; Saavedra, J. E. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) December, 1427–1434. Keiding, K.; Sielemann, M.; Andersen, N. P. Modeling pH in Natural Waters. (MCAD) April, 528. Keith-Lucas, L. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 (by American Chemical Society and ACS Board–Council Committee on Chemical Safety). (BMR) March, 315–316. Kelkar, V. D. Letter Matrix Puzzle on the Symbols of Elements. April, 456–457. Kerr, J. R.; Comstock, M. G.; Gray, J. A. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) April, 500–502. Kettel, J.; Dunnivant, F. M. An Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. June, 715–717. Kettle, S. F. The Symmetry Groups of Two Nonrigid Molecules. (ACL) February, 258–263. Khanam, J.; Gani, N. Are Surfactant Molecules Really Oriented in the Interface? (TD) March, 332–333. King, C. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) July, 896. King, D. W. A General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. September, 1135–1140.
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Author Index • Volume 79 • 2002 Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. September, 1094– 1100. Klarup, D. G.; Blitz, J. P. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. November, 1358–1360. Klinger, D. M.; Witter, A. E.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257–1260. Knight, D. A.; Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. June, 729–731. Knupp, G.; Kusch, P.; Neugebauer, M. Identification of Flavor Components in Perfumes by Headspace SolidPhase Microextraction and Gas Chromatography– Mass Spectrometry. January, 98–100. Kocmur, S.; Cortón, E.; Haim, L.; Visbeek, G. J.; Galagovsky, L. A Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. September, 1105–1108. Koether, M. C.; McGarey, D.; Patterson, M.; Williams, D. J. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) August, 934–935. Kolb, D. Optics Demonstrations on the Overhead Projector (by Douglas S. Goodman). (BMR) April, 436– 437. Kolbrich, E.; Harrington, P. d.; Cline, J. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. July, 863–864. Kopitzke, R.; Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. July, 813–819. Kortz, C. L.; Flint, E. B.; Taylor, M. A. Microscale pH Titrations Using an Automatic Pipet. (ML) June, 705– 706. Kossida, S.; Tahri, N.; Daizadeh, I. Bioinformatics by Example: From Sequence to Target. December, 1480– 1485. Kostka, K. L.; McKay, D. D. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. October, 1172–1175. Kosuda, K. M.; Pageau, G. J.; Mabaera, R.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Kotz, J. C.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Kovac, J. D. The Genie in the Bottle (by Joe Schwarcz). (BMR) March, 316. Kovac, J. D. Oxygen (by Carl Djerassi and Roald Hoffmann). (BMR) April, 436. Kovac, J. D. The Science of Chocolate (by Stephen T. Beckett). (BMR) February, 167–168. Kovac, J. D. Statistical Mechanics: A Concise Introduction for Chemists (by Benjamin Widom). (BMR) November, 1322. Kovac, J. D.; Pagni, R. M.; Harris, H. H.; Coppola, B. P. Summer Reading. June, 648–659. Kozliak, E. I. Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) December, 1435–1436. Kraft, J.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Kramer, F. A. The Laboratory Balance. (Letter) May, 559. Krepps, M. K.; Otieno, T.; Hutchison, A. R.; Atwood, D. A. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. November, 1355–1357. Kriz, G. S.; Selfe, S. Conference Overview: 17th Biennial Conference on Chemical Education, Western Washington University, July 28–August 1, 2002. June, 660–662. Kriz, G. S.; Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M. Preparing Students for Research: Synthesis of Sub-
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stituted Chalcones as a Comprehensive Guided-Inquiry Experience. September, 1119–1121. Kuhn, A.; Martel, D.; Sojic, N. A Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. March, 349–352. Kusch, P.; Knupp, G.; Neugebauer, M. Identification of Flavor Components in Perfumes by Headspace SolidPhase Microextraction and Gas Chromatography– Mass Spectrometry. January, 98–100. Kwiram, A. L. ACS Presidential Election: Statement on Education—Education at the Core. September, 1037.
L Labianca, D. A. Conversion of Serum-Alcohol Concentrations to Corresponding Blood-Alcohol Concentrations (re J. Chem. Educ. 2001, 78, 1225–127). (Letter) July, 803. Labianca, D. A. The Flawed Nature of the Calibration Factor in Breath-Alcohol Analysis. October, 1237– 1240. Lagorio, M. G.; San Román, E. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. November, 1362– 1367. Lam, G.; Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) June, 756–762. Lam, M.; Witter, A. E.; Klinger, D. M.; Fan, X.; Mathers, D. T.; Mabury, S. A. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257– 1260. Lambert, F. L. Disorder—A Cracked Crutch for Supporting Entropy Discussions. February, 187–192. Lambert, F. L. Entropy Is Simple, Qualitatively. October, 1241–1246. Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R.; Schauble, C. J. A Hands-On Introduction to Molecular Dynamics. May, 601–606. Lampman, G. M.; Vyvyan, J. R.; Pavia, D. L.; Kriz, G. S. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. September, 1119–1121. Langhus, D. L. Fundamentals of Electroanalytical Chemistry (by Paul M. S. Monk). (BMR) October, 1207– 1208. LeBret, N.; McRae, R.; Rahn, J. A.; Beamer, T. W. The Liquid Nitrogen Fountain. (TD) October, 1220– 1221. Legge, C. H. Chemistry under the Microscope—Labon-a-Chip Technologies. (POC) February, 173–178. Lentini, G. On the Stereochemistry of “Natural” αAmino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) May, 558. Leung, S. H. On the Stereochemistry of “Natural” αAmino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) May, 559. Lewis, A. L.; Driver, M. J. Blending in with the Body. (POC) March, 321–326. Lewis, E.; Burke, K. A.; Greenbowe, T. J.; Peace, G. E. The Multi-Initiative Dissemination Project: ActiveLearning Strategies for College Chemistry. June, 699. Li, L. Gender Equity in Science—Who Cares? (Commentary) April, 418–419. Lieu, V. T.; Kalbus, G. E. A Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. April, 473. Light, J. C.; Gasyna, Z. L. Application of the WKB Approximation in the Solution of the Schrödinger Equation. January, 133–134. Lim, K. F. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) January, 135. Liu, R. S. Colorful Azulene and Its Equally Colorful Derivatives. February, 183–185. Liyanage, J. A.; Janaratne, T. Chemical Speciation: A Guide to Understand Titrimetric Analysis. May, 635– 636. Llobet, A.; Colom, J.; Pla-Quintana, A.; Roglans, A. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. June, 731–734. Lo, G. V. Illustrating the Bohr Correspondence Principle. (MCAD) November, 1377–1378. LoBue, J. M. Hückel Theory I and II. (MCAD) November, 1378.
Long, J.; Hardee, J. R.; Otts, J. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. May, 633–634. Long, S. The Science Teacher: Summer 2002. (ROJSciTea) August, 924–925. Long, S. The Science Teacher: Winter 2002. (ROJSciTea) February, 142–144. Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) October, 1264–1266. Lowe, J. P. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) April, 430–431. Lowe, J. P. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) January, 30–31. Lowinsohn, D.; Bertotti, M. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. January, 103–105. Lucas, J. M.; Payne, K. W.; Eisenbraun, E. J. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. February, 217. Lunelli, B.; Scagnolari, F. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) May, 626–628. Luo, J.; Maye, M. M.; Han, L.; Zhong, C. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. February, 207–210. Lyga, J. W. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) May, 592A–592B. Lyle, K. S.; Robinson, W. R. An Action Research Report: Improving Pre-Laboratory Preparation of FirstYear University Chemistry Students. (ROJResLit) June, 663–665. Lyle, K. S.; Robinson, W. R. A Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) October, 1189–1191. Lyle, K. S.; Robinson, W. R. Talking about Science. (ROJResLit) January, 18–20.
M Mabaera, R.; Pageau, G. J.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Mabury, S. A.; Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257–1260. MacDonald, G.; Olchowicz, J. C.; Coles, D. R.; Kain, L. E. Using Infrared Spectroscopy to Investigate Protein Structure. March, 369–371. MacDonald, G.; Seal, B. C.; Wynne, D. H. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. February, 239–243. Macklin, J.; Nyasulu, F.; Cusworth, W. The Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. March, 356–359. Magid, R. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives (by Henning Hopf ). (BMR) January, 34. Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. The FLASH Consortium. (2YC3) May, 544–547. Malliakas, C.; Nikitas, P. A Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) January, 135. Marêché, J. F.; Celzard, A. Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) July, 854– 859. Mark, J. E. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. December, 1437–1443. Markgraf, J. H.; Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. January, 85–86. Marshall, M. R.; Crowley, J. P.; DeBoise, K. L.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824–827.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Martel, D.; Sojic, N.; Kuhn, A. A Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. March, 349–352. Martin, J. S. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) May, 639. Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. Microscale Synthesis of a Diphenylisoxazoline by a 1,3-Dipolar Cycloaddition. (ML) February, 225–227. Mason, D. S. Articulations: A Case for “Physics First”. (EHST) December, 1393. Mason, D. S. Chem Gems & Joules. (EHST) September, 1033. Mason, D. S. Commencement. (EHST) January, 8. Mason, D. S. Cross-Connections of Chemistry. (EHST) February, 143. Mason, D. S. Disciplina, Paedisium, Civitatis: Attend a Summer Meeting and Open Up Your World. (EHST) June, 649. Mason, D. S. Getting Connected Online. (EHST) May, 537. Mason, D. S. Getting Hooked on Chemistry. (EHST) April, 409. Mason, D. S. Inquiry Methods in Chemistry. (EHST) March, 281. Mason, D. S. Intellectual Couch Potato? (EHST) August, 905. Mason, D. S. Transitions and Interfaces. (EHST) November, 1289. Masoner, I. M.; Scorrano, G.; Nicolini, N. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. January, 47–52. Mathers, D. T.; Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mabury, S. A. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257–1260. Matta, C. F.; Gillespie, R. J. Understanding and Interpreting Molecular Electron Density Distributions. September, 1141–1152. Mattern, D. L.; Boo, W. O. Generating Closed Shapes from Regular Tilings. August, 1017–1023. Matts, E. H.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. February, 207– 210. Mayrhofer, R. C.; Crane, N. J.; Betts, T. A.; Baker, G. A. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. October, 1261– 1263. McCammon, J. A.; Gidofalvi, G.; Wong, C. F. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. September, 1122–1126. McFadden, C. S.; Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; Wettack, F. S. An Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. July, 837–844. McGarey, D.; Koether, M. C.; Patterson, M.; Williams, D. J. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) August, 934–935. McGowan, C. B.; Singh, M. M.; Szafran, Z. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) August, 941. McIntyre, J. P.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. McKay, D. D.; Kostka, K. L. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. October, 1172–1175. McKay, S. E.; Giffin, G. A.; Boone, S. R.; Cole, R. S.; Kopitzke, R. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. July, 813–819. McKee, J. R.; Smith, R. E. IV.; Zanger, M. The Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) February, 227–229. McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. The Liquid Nitrogen Fountain. (TD) October, 1220– 1221.
Volume 79 • 2002 • Author Index Medina, F.; Cesteros, Y.; Salagre, P.; Sueiras, J. E. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. April, 489–491. Mehta, M. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition (by J. K. Akitt and B. E. Mann). (BMR) June, 677. Meister, J.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Mendiara, S. N.; Perissinotti, L. J. Tetrahedral Geometry and the Dipole Moment of Molecules. January, 64–66. Mendonça, Â. F.; Carvalho, A. P.; Piedade, M. F. Acid– Base Reactions with Carbon Dioxide. (JCE Classroom Activity) December, 1464A–1464B. Menezes, W. J. Problem Solving in Physical Chemistry with the TI-89 Calculator. December, 1465–1466. Menzek, A. A New Approach to Understanding Oxidation–Reduction of Compounds in Organic Chemistry. June, 700–702. Michalowski, T. Effect of Mutual Solubility of Solvents in Multiple Liquid–Liquid Extraction. October, 1267–1268. Middlecamp, C. H.; Russell, A. A.; Torre, F. ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. August, 906– 913. Miles, D. G.; Francis, T. A. A Survey of Computer Use in Undergraduate Physical Chemistry. December, 1477–1479. Miles, D. G.; Yang, Z.; Yu, H. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) August, 1007–1012. Miles, W. H.; Smiley, P. M. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) January, 90. Miller, M. L.; Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) February, 248–257. Miller, R. M.; Ball, D. B. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) June, 665– 666. Minderhout, V. Biochemistry of Signal Transduction and Regulation, 2nd Edition (by Gerhard Krauss). (BMR) November, 1321–1322. Mitra, A.; Seaton, P. J.; Williamson, R. T.; Assarpour, A. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. January, 106–110. Mitsch, S. M.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Mitschele, J. An Interactive Graphical Approach to Temperature Conversions. October, 1235–1236. Mohrig, J. R. Academic Excellence (edited by Michael P. Doyle). (BMR) February, 165–166. Montes, L. D.; Rockley, M. G. Teacher Perceptions in the Selection of Experiments. February, 244–247. Moore, D. A.; Cortés-Figueroa, J. E. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. December, 1462–1464. Moore, J. W. Advanced High School Chemistry. (Editorial) August, 903. Moore, J. W. The Chemistry–Biology Connection. (Editorial) November, 1287. Moore, J. W. Educating Stewards of Our Discipline. (Editorial) October, 1159. Moore, J. W. Educating Teachers. (Editorial) June, 647. Moore, J. W. Graduate Education. (Editorial) January, 7. Moore, J. W. A Long Way to Go. (Editorial) April, 407. Moore, J. W. Research/Teaching Partnerships. (Editorial) September, 1031. Moore, J. W. Resolving to Contribute. (Editorial) February, 141. Moore, J. W. Scientific Misconduct. (Editorial) December, 1391. Moore, J. W. Should All Information Be Free? (Editorial) March, 279. Moore, J. W. Teaching as Research. (Editorial) May, 535. Moore, J. W. Teaching for Understanding. (Editorial) July, 775.
Moore, J. W.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Moore, J. W.; Jacobsen, J. J.; Browne, L. M.; Zimmerman, J. F. Chemistry Comes Alive! Volume 6. (JCE Software) November, 1381–1384. Morgan, E. D.; Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Ramsden, C. A. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214– 1216. Morikawa, T.; Williamson, B. E. A Chemically Relevant Model for Teaching the Second Law of Thermodynamics. March, 339–342. Morris, L. W. ACS National Meeting: Boston, August 18–22 2002. Free Time in Boston? August, 914. Moya-Hernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. The Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. February, 218–220. Mulford, D. R.; Robinson, W. R. An Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) June, 739–744. Mundy, B. P.; Poon, T.; Shattuck, T. W. The Michael Reaction. February, 264–267. Muranaka, K. An Excel Program to Study First-Order Kinetics. (JCE WebWare) January, 135. Muyskens, M. A. MACTLAC–Supporting Liberal Arts Chemistry Faculty. June, 670–671. Muzyka, J.; Campbell, S. Chemistry Game Shows. April, 458. Muzzi, C. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) July, 791–792. Myster, S. T.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116.
N Nahir, T. M.; Sheffield, M. Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. November, 1345–1347. Nakhleh, M. B.; Francisco, J. S.; Nurrenbern, S. C.; Miller, M. L. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) February, 248–257. Nascimento, E. C.; East, G. A. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) January, 100–102. Nedd, S.; Shaw, R.; Roane, D. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis1,2-Dibenzoylethylenes. A Small-Group or Recitation Activity. January, 67–69. Neeland, E. G. Of Magnets and Mechanism. (OPD) February, 186. Neugebauer, M.; Knupp, G.; Kusch, P. Identification of Flavor Components in Perfumes by Headspace SolidPhase Microextraction and Gas Chromatography– Mass Spectrometry. January, 98–100. Nicodem, D. E.; de Mattos, M. C. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) September, 1070. Nicodem, D. E.; de Mattos, M. C. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. January, 94–95. Nicolini, N.; Scorrano, G.; Masoner, I. M. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. January, 47–52. Nikitas, P.; Malliakas, C. A Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) January, 135. Nurrenbern, S. C.; Francisco, J. S.; Nakhleh, M. B.; Miller, M. L. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) February, 248–257. Nyasulu, F.; Macklin, J.; Cusworth, W. The Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. March, 356–359.
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Author Index • Volume 79 • 2002 O O’Reilly, S. A.; Wilson, A. M.; Howes, B. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) April, 524–526. Oberem, G. E.; Jasien, P. G. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) July, 889–895. Occhionero, F.; Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. August, 976–979. Ochs, R. S. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) March, 311. Oevering, H.; van Haaren, R. J.; Reek, J. N.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. Ogren, P. J. Using the Asymmetric Stretch Band of Atmospheric CO2 to Obtain the C=O Bond Length. January, 117–119. Olbris, D. J.; Herzfeld, J. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. October, 1232–1234. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. Using Infrared Spectroscopy to Investigate Protein Structure. March, 369–371. Oliver-Hoyo, M. T.; Allen, D. Fingerprinting: Commercial Products and Elements. (AA) April, 459–461. Olney, D. Quote Boxes for Chemistry Teachers. April, 447. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. The Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. March, 343–344. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. November, 1355–1357. Otts, J.; Hardee, J. R.; Long, J. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. May, 633–634. Özkaya, A. R. Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. June, 735– 738.
P Page, M. A.; Smith, B. W.; Williams, K. R. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. March, 364–365. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Pagni, R. M. Chemical Kinetics and Catalysis (by Richard I. Masel). (BMR) March, 313. Pagni, R. M. Heterocyclic Chemistry (by Malcolm Sainsbury). (BMR) September, 1073–1074. Pagni, R. M.; Kovac, J. D.; Harris, H. H.; Coppola, B. P. Summer Reading. June, 648–659. Paiva, J. C.; Gil, V. M.; Correia, A. F. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) May, 640. Paiva, J. C.; Gil, V. M.; Correia, A. F. The Right Shift? A Problem in Chemical Equilibrium. (RSA) May, 583. Palko, N. R.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824–827. Paolini, M.; Cercignani, G.; Bauer, C. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) February, 163. Parody-Morreale, A.; Guzmán-Casado, M. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. March, 327–331. Parra-Belky, K. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. November, 1348–1350.
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Paselk, R. A.; Zoellner, R. W. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) October, 1192–1195. Patenaude, G. W.; Berry, D. E. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. April, 498–499. Patterson, B. M.; Lorigan, G. A.; Sommer, A. J.; Danielson, N. D. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) October, 1264–1266. Patterson, M.; Koether, M. C.; McGarey, D.; Williams, D. J. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) August, 934–935. Pavia, D. L.; Vyvyan, J. R.; Lampman, G. M.; Kriz, G. S. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. September, 1119–1121. Payne, K. W.; Lucas, J. M.; Eisenbraun, E. J. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. February, 217. Peace, G. E.; Burke, K. A.; Greenbowe, T. J.; Lewis, E. The Multi-Initiative Dissemination Project: ActiveLearning Strategies for College Chemistry. June, 699. Penverne, C.; Ferrières, V. Synthesis of 4-Methylumbellifer-7-yl-α-D-Mannopyranoside: An Introduction to Modern Glycosylation Reactions. November, 1353–1354. Perissinotti, L. J.; Mendiara, S. N. Tetrahedral Geometry and the Dipole Moment of Molecules. January, 64–66. Peters, D. G. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) July, 783–786. Phambu, N.; Humbert, B.; Burneau, A. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. September, 1117–1118. Phelps, A. J.; Sanger, M. J.; Wiley, R. A.; Richter, E. W. Rate Law Determination of Everyday Processes. August, 989–991. Piedade, M. F.; Carvalho, A. P.; Mendonça, Â. F. Acid– Base Reactions with Carbon Dioxide. (JCE Classroom Activity) December, 1464A–1464B. Pierce, R. E.; Williams, K. R.; Adhyaru, B.; Schulman, S. G. The Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. January, 115– 116. Pietraß, T. 129Xe NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. April, 492–493. Pla-Quintana, A.; Colom, J.; Llobet, A.; Roglans, A. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. June, 731–734. Pohl, N. L.; Clague, A.; Schwarz, K. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. June, 727–728. Politi, M. J.; Schneider, T.; Baptista, M. S. A SmartLaser-Based Calorimeter. (TICI) April, 503–505. Poon, T.; Mundy, B. P.; Shattuck, T. W. The Michael Reaction. February, 264–267. Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Potter, F.; Taagepera, M.; Arasashingham, R.; Soroudi, A.; Lam, G. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) June, 756–762. Pounds, A. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) April, 434–435. Powers, J. L.; Bevilacqua, V. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Prevoir, S. J.; Tilley, L. J.; Forsyth, D. A. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. May, 593–600. Provenzano, F. A.; Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Utz, M. J. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224.
Pulliam, E.; Shanbhag, V.; Torre, F. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. March, 282–289.
Q Querns, M. K.; Campbell, D. J. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) January, 76–77. Querns, M. K.; Campbell, D. J.; Freidinger, E. R.; Hastings, J. M. Spontaneous Assembly of Soda Straws. February, 201–202.
R Rahn, J. A.; McRae, R.; Beamer, T. W.; LeBret, N. The Liquid Nitrogen Fountain. (TD) October, 1220–1221. Rainwater, J. C.; Harper, B. A.; Birdwhistell, K. R.; Knight, D. A. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. June, 729–731. Ramírez, M. T.; Moya-Hernández, R.; Rueda-Jackson, J. C.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Ramos, L. A.; Soares, M. H.; Cavalheiro, É. T. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. September, 1111–1113. Ramsden, C. A.; Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214–1216. Rascati, R. J.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Ravera, M.; Osella, D.; Soave, C.; Scorza, S. The Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. March, 343–344. Rebelo, L. P.; Visak, Z. P.; Szydlowski, J. Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. July, 869–873. Rebelo, L. P.; Visak, Z. P.; Szydlowski, J. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) October, 1203. Reek, J. N.; van Haaren, R. J.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. Ribou, A.; Vigo, J.; Salmon, J. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. December, 1471–1474. Rice, R. E. Teaching and Learning Chemistry. (FPI) November, 1292–1294. Richardson, D.; Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) May, 551–552. Richardson, J.; Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, D. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) May, 551–552. Richter, E. W.; Sanger, M. J.; Wiley, R. A.; Phelps, A. J. Rate Law Determination of Everyday Processes. August, 989–991. Rioux, F.; DeKock, R. L. Response to Lowe’s PotentialEnergy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) April, 429–430. Rioux, F.; DeKock, R. L. Response to Potential-EnergyOnly Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) January, 29–30. Rioux, F. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) December, 1404– 1406. Risley, J. M. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) March, 377–384. Ritt, D. A.; Fisher, M. A.; Johnston, D. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. March, 374–376.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Roane, D.; Shaw, R.; Nedd, S. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis1,2-Dibenzoylethylenes. A Small-Group or Recitation Activity. January, 67–69. Roberts, D. L.; Garrett, E.; Wehr, A.; Hedge, R.; Roberts, J. R. A Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. March, 366–368. Roberts, J. L. Jr. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) February, 161–162. Roberts, J. L. Jr. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) August, 941. Roberts, J. R.; Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L. A Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. March, 366–368. Robinson, W. R.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Robinson, W. R.; Lyle, K. S. An Action Research Report: Improving Pre-Laboratory Preparation of FirstYear University Chemistry Students. (ROJResLit) June, 663–665. Robinson, W. R.; Lyle, K. S. A Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) October, 1189–1191. Robinson, W. R.; Lyle, K. S. Talking about Science. (ROJResLit) January, 18–20. Robinson, W. R.; Mulford, D. R. An Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) June, 739–744. Rockley, M. G.; Montes, L. D. Teacher Perceptions in the Selection of Experiments. February, 244–247. Rodríguez, E.; Vicente, M. A. A Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. April, 486–488. Roglans, A.; Colom, J.; Llobet, A.; Pla-Quintana, A. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. June, 731–734. Rojas-Hernández, A.; Moya-Hernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Rosan, A. M. Organic Structures from Spectra (by L. D. Field, S. Sternhell, and J. R. Kalman). (BMR) November, 1323–1324. Rosenthal, S. J.; Kippeny, T. C.; Swafford, L. A. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. September, 1094– 1100. Roth, K. A.; Karukstis, K. K.; Van Hecke, G. R.; Burden, M. A. A Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. August, 985–988. Rowe, M. W.; Williamson, V. M. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) September, 1131–1134. Royappa, A. T. Synthesis and Characterization of a Hyperbranched Copolymer. January, 81–84. Royer, A. P.; Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Shahmohammadi, K.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Rueda-Jackson, J. C.; Moya-Hernández, R.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Ruekberg, B. Tethering Bottle Caps. April, 499. Russell, A. A.; Middlecamp, C. H.; Torre, F. ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. August, 906–913. Russell, J. G.; Borer, L. L.; Settlage, R. E.; Bryant, R. G. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation
Volume 79 • 2002 • Author Index of Diastereomeric Ion Pairs. April, 494–497. Russell, T.; Williams, K. R.; Adhyaru, B.; German, I. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. December, 1475–1476. Rúveda, E. A.; Colombo, M. I.; Bohn, M. L. The Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. April, 484–485. Rybolt, T. R.; Waddell, T. G. The Chemical Adventures of Sherlock Holmes: The Case of Three. April, 448– 453.
S Saavedra, J. E.; Keefer, L. K. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) December, 1427–1434. Sabadini, E. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) September, 1071. Salagre, P.; Cesteros, Y.; Medina, F.; Sueiras, J. E. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. April, 489–491. Salmon, J.; Ribou, A.; Vigo, J. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. December, 1471–1474. Salter, C.; de Levie, R. Nonlinear Fits of Standard Curves: A Simple Route to Uncertainties in Unknowns. February, 268–270. San Román, E.; Lagorio, M. G. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. November, 1362– 1367. Sanft, P. M.; Porter, V. J.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Sanger, M. J.; Geer, K. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. August, 994–996. Sanger, M. J.; Wiley, R. A.; Richter, E. W.; Phelps, A. J. Rate Law Determination of Everyday Processes. August, 989–991. Sarquis, A. M.; Towns, M. H.; Sarquis, J. L. Executive Committee Report, April 2002. (ACS) July, 793–794. Sarquis, J. L.; Hoffman, M. Z.; Cooper, M. M. Executive Committee Report, September 2002. (ACS) December, 1410–1412. Sarquis, J. L.; Towns, M. H.; Sarquis, A. M. Executive Committee Report, April 2002. (ACS) July, 793–794. Sasser, H.; Wagner, E. P.; DiBiase, W. J. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) June, 749–755. Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. The World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) October, 1214– 1216. Scagnolari, F.; Lunelli, B. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) May, 626–628. Scerri, E. R. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) March, 310. Schäffer, C. E.; Steenberg, P. Cobalt Alums. A Demonstration Experiment. (TD) August, 958–960. Schatz, P. F.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Schauble, C. J.; Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R. A Hands-On Introduction to Molecular Dynamics. May, 601–606. Schedler, D. J. Drugs and the Human Body: With Implications for Society, 6th Edition (by Ken Liska). (BMR) July, 805. Schildcrout, S. M. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. November, 1340– 1343. Schmitz, G. pH of Sodium Acetate Solutions. (Letter) January, 29. Schneider, T.; Politi, M. J.; Baptista, M. S. A SmartLaser-Based Calorimeter. (TICI) April, 503–505.
Schreyeck-Reinert, L.; Comet, M.; Fuzellier, H. An Efficient Composition for Bengal Lights. (TD) January, 70–73. Schueneman, S. M.; Chen, W. Environmentally Responsive Hydrogels. July, 860–862. Schuh, M. D.; Blauch, D. N.; Carroll, F. A. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. May, 584–587. Schulman, S. G.; Williams, K. R.; Adhyaru, B.; Pierce, R. E. The Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. January, 115– 116. Schwartz, A. T. Uncle Tungsten: Memories of a Chemical Boyhood (by Oliver Sacks). (BMR) March, 312. Schwarz, K.; Pohl, N. L.; Clague, A. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. June, 727–728. Scorrano, G.; Nicolini, N.; Masoner, I. M. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. January, 47–52. Scorza, S.; Osella, D.; Ravera, M.; Soave, C. The Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. March, 343–344. Seal, B. C.; Wynne, D. H.; MacDonald, G. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. February, 239–243. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. January, 106–110. Sebelius, T. A.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Sekher, P.; Gano, J. E.; Gano, A. J.; Garry, P. Small Scale Reactor for Ultraviolet Photochemistry. (CET) November, 1361. Selco, J. I.; Beery, J. Saving a Drug Poisoning Victim: A Kinetics Simulation. May, 578–582. Selfe, S.; Kriz, G. S. Conference Overview: 17th Biennial Conference on Chemical Education, Western Washington University, July 28–August 1, 2002. June, 660–662. Settlage, R. E.; Borer, L. L.; Russell, J. G.; Bryant, R. G. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. April, 494–497. Settle, F. A.; Groves, S. The Avtex Saga: National Security versus Environmental Protection. June, 685–691. Shaffer, H. M.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Shah, A.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Shahmohammadi, K.; Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Vinod, T. K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Shanbhag, V.; Pulliam, E.; Torre, F. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. March, 282–289. Shattuck, T. W.; Poon, T.; Mundy, B. P. The Michael Reaction. February, 264–267. Shaw, R.; Roane, D.; Nedd, S. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis1,2-Dibenzoylethylenes. A Small-Group or Recitation Activity. January, 67–69. Sheffield, M.; Nahir, T. M. Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. November, 1345–1347. Shelton, M. C. Oligosaccharides: Their Synthesis and Biological Roles (by Helen Osborn and Tariq Kahn). (BMR) May, 562.
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Author Index • Volume 79 • 2002 Shibata, J. H. ABCs of FT-NMR (by John D. Roberts). (BMR) November, 1324–1325. Shibley, I. A.; Zimmaro, D. M. The Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) June, 745–748. Sielemann, M.; Andersen, N. P.; Keiding, K. Modeling pH in Natural Waters. (MCAD) April, 528. Simanek, E. E.; Gonzalez, S. O. Dendrimers: Branching Out of Polymer Chemistry. October, 1222–1231. Singh, A.; Stanish, I.; Zabetakis, D. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. April, 481–483. Singh, M. M.; McGowan, C. B.; Szafran, Z. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) August, 941. Sirochman, R.; Bateman, R. C.; Booth, D.; Richardson, J.; Richardson, D. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) May, 551–552. Smiley, P. M.; Miles, W. H. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) January, 90. Smith, B. W.; Page, M. A.; Williams, K. R. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. March, 364–365. Smith, C. B. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. December, 1444–1452. Smith, C. B. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. December, 1453–1461. Smith, E. T.; Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. September, 1114–1116. Smith, M. J.; Vincent, C. A. Why Do Some Batteries Last Longer Than Others? July, 851–853. Smith, P. M. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) July, 807– 808. Smith, R. E. IV.; McKee, J. R.; Zanger, M. The Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) February, 227–229. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. September, 1111–1113. Soave, C.; Osella, D.; Ravera, M.; Scorza, S. The Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. March, 343–344. Sojic, N.; Martel, D.; Kuhn, A. A Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. March, 349–352. Sommer, A. J.; Lorigan, G. A.; Patterson, B. M.; Danielson, N. D. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) October, 1264–1266. Sone, K.; Itami, Y. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) August, 1002–1004. Soroudi, A.; Taagepera, M.; Arasashingham, R.; Potter, F.; Lam, G. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) June, 756–762. Spence, T. G.; Birdwhistell, K. R. A New Glow on the Chromatography of M&M Candies. July, 847. Splittgerber, A. G.; Mulder, S. D.; Hoogenboom, B. E. The Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. February, 218–220. Stærk, D.; Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Vedsø, P. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768. Stanish, I.; Zabetakis, D.; Singh, A. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. April, 481–483. Stanitski, C. Chemistry, Society, and Environment. A New History of the British Chemical Industry (edited by Colin A. Russell). (BMR) May, 563–564.
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Steehler, J. K. Chemistry CD (by B. C. Sanctuary). (BMR) February, 166. Steenberg, P.; Schäffer, C. E. Cobalt Alums. A Demonstration Experiment. (TD) August, 958–960. Stetca, D.; Arends, I. W.; Hanefeld, U. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. November, 1351–1352. Su, T.; Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Villarba, M. The FLASH Consortium. (2YC3) May, 544–547. Sueiras, J. E.; Cesteros, Y.; Salagre, P.; Medina, F. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. April, 489–491. Sunseri, D. R.; Zovinka, E. P. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) November, 1331–1335. Sutton, L. A.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Swafford, L. A.; Kippeny, T. C.; Rosenthal, S. J. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. September, 1094– 1100. Szafran, Z.; Singh, M. M.; McGowan, C. B. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) August, 941. Szydlowski, J.; Visak, Z. P.; Rebelo, L. P. Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. July, 869–873. Szydlowski, J.; Visak, Z. P.; Rebelo, L. P. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) October, 1203.
T Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) June, 756–762. Tahri, N.; Kossida, S.; Daizadeh, I. Bioinformatics by Example: From Sequence to Target. December, 1480– 1485. Talanquer, V. Nucleation in Gas–Liquid Transitions. July, 877–883. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224. Tan, P.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. Introducing Freshmen Students to the Practice of Solid-Phase Synthesis. January, 87–89. Taylor, A. T.; Feller, S. E. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. December, 1467–1470. Taylor, M. A.; Flint, E. B.; Kortz, C. L. Microscale pH Titrations Using an Automatic Pipet. (ML) June, 705– 706. Tellinghuisen, J. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) June, 703–704. ten Hoor, M. J. An Evergreen: The Tetrahedral Bond Angle. August, 956–957. Thamattoor, D. M.; Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-β-Methylcinnamate. January, 96–97. Thorsen, K. Chem 13 News: A Valuable Resource. (ROJ13News) February, 150–153. Thouvenot, R.; Cordier, C.; Amouri, H.; Gruselle, M. An ABMX Spin System Study: From Experimental to Calculated Spectra. February, 234–238. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Com-
parison of Empirical and Quantum Mechanical Methods. May, 593–600. Torre, F.; Middlecamp, C. H.; Russell, A. A. ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. August, 906–913. Torre, F.; Pulliam, E.; Shanbhag, V. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. March, 282–289. Towns, M. H.; Sarquis, J. L.; Sarquis, A. M. Executive Committee Report, April 2002. (ACS) July, 793–794. Tran, C.; Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Trantow, A. Brushing Up on Chemistry. (JCE Classroom Activity) October, 1168A–1168B. Treptow, R. S. The Lead–Acid Battery: Its Voltage in Theory and Practice. March, 334–338. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. January, 85–86. Tudela, D. Nitrogen Triiodide. (Letter) May, 558. Türkseven, C. H.; Taralp, A.; Çakmak, A. Ö.; Çengel, Ö. Introducing Freshmen Students to the Practice of Solid-Phase Synthesis. January, 87–89. Turner, J. F. Ligand Field Theory and Its Applications (by Brian N. Figgis and Michael A. Hitchman). (BMR) September, 1072–1073. Tweedale, J.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Tyler, D. R. An Industrial Internship Program in Polymer Chemistry. (NSF) July, 796–797. Tyler, D. R. Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) November, 1372–1376.
U Ulrich, S. M.; Bradley, A. Z.; Jones, M. Jr.; Jones, S. M. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) April, 514–519. Umland, J. B. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) September, 1070. Uthe, R. E. For Mole Problems, Call Avogadro: 6021023. October, 1213. Utz, M. J.; Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. February, 221– 224.
V Vallarino, L. M.; Wnek, G. E. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) July, 832–836. Van Bramer, S. E. An Introduction to NMR Concepts. (MCAD) April, 528. van den Berg, B.; Joling, E.; Goedhart, M. J.; van der Spek, T. M. A Low-Cost and Timesaving Microscale Heater. (ML) September, 1109–1110. van der Spek, T. M.; Joling, E.; Goedhart, M. J.; van den Berg, B. A Low-Cost and Timesaving Microscale Heater. (ML) September, 1109–1110. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. An Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. July, 837–844. Van Hecke, G. R.; Karukstis, K. K.; Roth, K. A.; Burden, M. A. A Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. August, 985–988. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. January, 21–22. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1909: Wilhelm Ostwald. February, 146–148.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. March, 301–304. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1956: Hinshelwood and Semenov. April, 414–416. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1967: Eigen, Norrish, and Porter. May, 548–550. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. June, 667–669. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. July, 788–790. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. August, 926–933. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. September, 1055–1059. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul Crutzen, Sherwood Rowland, and Mario Molina. October, 1182–1188. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. November, 1297– 1306. Van Houten, J. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. December, 1396–1402. van Leeuwen, P. W.; van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. van Strijdonck, G. P.; van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; Kamer, P. C.; van Leeuwen, P. W. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. May, 588–591. van Swam, S. L.; Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. May, 619–622. Vaughn, J. B. The Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) March, 306–307. Vázquez, G. A.; Moya-Hernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Havel, J.; Rojas-Hernández, A. Statistical Study of Distribution Diagrams for TwoComponent Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. March, 389–392. Vedsø, P.; Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) June, 765–768. Vicente, M. A.; Rodríguez, E. A Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. April, 486–488. Victoriano, L. I. Copper(III) Dithiocarbamates. An Undergraduate Experimental Project with Unexpected Challenges. October, 1252–1253. Vigo, J.; Ribou, A.; Salmon, J. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. December, 1471–1474. Villarba, M.; Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T. The FLASH Consortium. (2YC3) May, 544–547. Vincent, C. A.; Smith, M. J. Why Do Some Batteries Last Longer Than Others? July, 851–853. Vinod, T. K.; Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K. A One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. May, 629–632. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. July, 869–873. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) October, 1203.
Volume 79 • 2002 • Author Index Visbeek, G. J.; Cortón, E.; Haim, L.; Kocmur, S.; Galagovsky, L. A Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. September, 1105–1108. Vitz, E. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) September, 1091. Vitz, E. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. March, 397– 400. Vitz, E. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) July, 896. Vitz, E.; Egolf, B. P. LIMSport: Optimizing a WindowsBased Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) September, 1060–1062. Vogelien, D. L.; Bevilacqua, V. L.; Powers, J. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) November, 1311–1313. Volaric, L.; Hagen, J. P. The Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. January, 91–93. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. September, 1119–1121.
W Waddell, T. G.; Rybolt, T. R. The Chemical Adventures of Sherlock Holmes: The Case of Three. April, 448– 453. Wagner, E. P.; Sasser, H.; DiBiase, W. J. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) June, 749–755. Waldow, D. Introduction to Synthetic Polymers, 2nd Edition (by Ian M. Campbell). (BMR) May, 561–562. Walker, R. VII. The Production, Microstructure, and Properties of Wrought Iron. April, 443–447. Walton, E.; Burke, B. A. Modeling Effective Teaching and Learning in Chemistry. (NSF) February, 155–156. Watson, L.; Eisenstein, O. Entropy Explained: The Origin of Some Simple Trends. October, 1269–1277. Webb, P. J.; Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Markgraf, J. H. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. January, 85–86. Wehr, A.; Garrett, E.; Hedge, R.; Roberts, D. L.; Roberts, J. R. A Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. March, 366–368. Weiss, K.; Gordon, J. S.; James, A.; Harman, S. A Film Canister Colorimeter. (CET) August, 1005–1006. Wettack, F. S.; Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S. An Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. July, 837–844. Whitchurch, J.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Widener, R. K.; Dávila, R. M. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. August, 997–999. Wiediger, S. D.; Hutchinson, J. S. The Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) January, 120–124. Wildman, R. J.; Coleman, W. F. Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) December, 1486. Wildman, R. J.; Coleman, W. F. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) September, 1071. Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: August 2002. (JCE WebWare) August, 1024. Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: December 2002—Nitric Oxide-Releasing Compounds. (JCE WebWare) December, 1470. Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: July 2002. (JCE WebWare) July, 896.
Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: November 2002. (JCE WebWare) November, 1384. Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: October 2002. (JCE WebWare) October, 1246. Wildman, R. J.; Coleman, W. F. Featured Molecule of the Month: September 2002. (JCE WebWare) September, 1152. Wildman, R. J.; Coleman, W. F. Linking JCE WebWare to JCE Articles. (JCE WebWare) June, 768. Wildman, R. J.; Coleman, W. F. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) November, 1379. Wildman, R. J.; Coleman, W. F. Where Does WebWare Stand Today? (JCE WebWare) August, 1023–1024. Wiley, R. A.; Sanger, M. J.; Richter, E. W.; Phelps, A. J. Rate Law Determination of Everyday Processes. August, 989–991. Wilhite, D. M.; Baldwin, B. W. Triboluminescent Crystals from the Microwave Oven. November, 1344. Williams, D. J.; Koether, M. C.; McGarey, D.; Patterson, M. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) August, 934–935. Williams, E. T. Effects of Changing Climate on Weather and Human Activities (by Kevin E. Trenberth, Kathleen Miller, Linda Mearns, and Steven Rhodes). (BMR) April, 433–434. Williams, E. T. Stratospheric Ozone Depletion (by Ann M. Middlebrook and Margaret A. Tolbert). (BMR) April, 433–434. Williams, K. R. Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) October, 1168–1169. Williams, K. R. Colored Bands: History of Chromatography. (FPI) August, 922–923. Williams, K. R. Early Automated Testing: The 5-0-2. (FPI) January, 16–17. Williams, K. R. Fire Making, Part 1. (FPI) April, 408. Williams, K. R. Fire Making, Part 2. (FPI) May, 540– 542. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. The Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. March, 372–373. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. December, 1475–1476. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. The Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. January, 115– 116. Williams, K. R.; Page, M. A.; Smith, B. W. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. March, 364–365. Williamson, B. E.; Morikawa, T. A Chemically Relevant Model for Teaching the Second Law of Thermodynamics. March, 339–342. Williamson, R. T.; Seaton, P. J.; Mitra, A.; Assarpour, A. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. January, 106–110. Williamson, V. M.; Rowe, M. W. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) September, 1131–1134. Wilson, A. M.; O’Reilly, S. A.; Howes, B. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) April, 524–526. Wilson, R.; Ball, D. B. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. January, 112–114. Wimpfheimer, T. Chemistry ConcepTests: Considerations for Small Class Size. May, 592. Wiser, D. C.; Martin, W. B.; Kateley, L. J.; Brummond, C. A. Microscale Synthesis of a Diphenylisoxazoline by a 1,3-Dipolar Cycloaddition. (ML) February, 225–227. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/MS Method. October, 1257–1260. Witzel, J. E. Lego Stoichiometry. (JCE Classroom Activity) March, 352A–352B. Wladkowski, B. D.; Broadwater, S. J. Determination of the Rotameric Stability of 1,2-Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. February, 230–233.
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Author Index • Volume 79 • 2002 Wnek, G. E.; Vallarino, L. M. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) July, 832–836. Wong, C. F.; Gidofalvi, G.; McCammon, J. A. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. September, 1122–1126. Wong, P. S.; Choi, M. M. Application of Datalogger in Biosensing: A Glucose Biosensor. August, 982–984. Wong, P. S.; Choi, M. M.; Yiu, T. P. Application of Datalogger in Observing Photosynthesis. (TD) August, 980–981. Wright, L. L.; Hanks, T. W. Techniques in Chemistry: The Centerpiece of a Research-Oriented Curriculum. September, 1127–1130. Wright, S. W. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) January, 44–46. Wright, S. W. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) January, 40A–40B. Wright, S. W. The Vitamin C Clock Reaction. (TD) January, 41–43. Wynne, D. H.; Seal, B. C.; MacDonald, G. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. February, 239–243.
Y Yalkowsky, S. H.; Johnson, J. L. A Three-Dimensional Model for Water. (TD) September, 1088–1090. Yang, Z.; Miles, D. G.; Yu, H. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) August, 1007–1012. Yaung, J.; Chen, Y. Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. July, 848–850. Yee, G. T. Through the Looking Glass and What Alice Ate There. (RSA) May, 569–571. Yiu, T. P.; Choi, M. M.; Wong, P. S. Application of Datalogger in Observing Photosynthesis. (TD) August, 980–981. Young, J. A. Acetaldehyde. (CLIP) June, 672. Young, J. A. Anthracene. (CLIP) May, 553. Young, J. A. Arsenic(III) Oxide. (CLIP) January, 23. Young, J. A. Barium Chloride Dihydrate. (CLIP) May, 554. Young, J. A. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) October, 1202.
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Young, J. A. Copper(II) Sulfate Pentahydrate. (CLIP) February, 158. Young, J. A. Correction to Chemical Laboratory Information Profile: Anthracene (re J. Chem. Educ. 2002, 79, 553). (Correction) September, 1071. Young, J. A. Ethylenediaminetetraacetic Acid. (CLIP) April, 426. Young, J. A. Formic Acid (85–95%). (CLIP) February, 157. Young, J. A. Glass Wool. (CLIP) June, 673. Young, J. A. Mercury(I) Chloride. (CLIP) July, 799. Young, J. A. Nitric Acid (approx. 70%). (CLIP) December, 1413. Young, J. A. Oleic Acid. (CLIP) January, 24. Young, J. A. Osmium Tetroxide. (CLIP) September, 1064. Young, J. A. Potassium Chlorate. (CLIP) August, 936. Young, J. A. Potassium Chromate. (CLIP) September, 1065. Young, J. A. Potassium Perchlorate. (CLIP) August, 937. Young, J. A. Sodium Acetate. (CLIP) November, 1314. Young, J. A. Sodium Carbonate (anhydrous). (CLIP) November, 1315. Young, J. A. Sodium. (CLIP) April, 425. Young, J. A. Sodium Fluoride. (CLIP) October, 1197. Young, J. A. Sodium Hypochlorite Solution. (CLIP) October, 1196. Young, J. A. Sodium Nitrate. (CLIP) December, 1414. Young, J. A. Sodium Thiosulfate Pentahydrate. (CLIP) July, 798. Young, J. A. Sulfur. (CLIP) September, 1063. Young, S. M.; Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R. Periodic Table Live! 3rd Edition. (JCE Software) December, 1487–1488. Yu, H.; Miles, D. G.; Yang, Z. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) August, 1007–1012.
Z Zabetakis, D.; Stanish, I.; Singh, A. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. April, 481–483. Zafar, S.; Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Jones, K. A.; Palko, N. R.; Mitsch,
S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) July, 824– 827. Zanger, M.; Smith, R. E. IV.; McKee, J. R. The Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) February, 227–229. Zare, R. N. Visualizing Chemistry. (Commentary) November, 1290–1291. Zaveer, M. S.; Davis, T. V.; Zimmer, M. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. October, 1278–1280. Zebolsky, D. M.; Geng, X. The Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. March, 385–388. Zerbinati, O. A Direct Methanol Fuel Cell. (TD) July, 829–831. Zevos, N. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. June, 692–696. Zhong, C.; Maye, M. M.; Luo, J.; Han, L. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. February, 207– 210. Zielinski, T. J. Mathcad Documents and Student Learning. (MCAD) April, 527–528. Zielinski, T. J. Student Access to Symbolic Mathematics Software. (MCAD) November, 1377. Zielinski, T. J.; Grushow, A. Hydrogen Bonding Using NMR: A New Look at the 2,4-Pentanedione Keto– Enol Tautomer Experiment. June, 707–714. Zimmaro, D. M.; Shibley, I. A. The Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) June, 745–748. Zimmer, M.; Davis, T. V.; Zaveer, M. S. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. October, 1278–1280. Zimmerman, J. F.; Jacobsen, J. J.; Moore, J. W.; Browne, L. M. Chemistry Comes Alive! Volume 6. (JCE Software) November, 1381–1384. Zoellner, R. W.; Paselk, R. A. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) October, 1192–1195. Zovinka, E. P.; Sunseri, D. R. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) November, 1331–1335.
JCE Online Index
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Volume 79 • 2002 • Subject Index
Subject Index* Acid–Base Chemistry Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Ault, A. September, 1070. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Sabadini, E. September, 1071. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Hawkes, S. J. February, 162–163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Roberts, J. L. Jr. February, 161–162. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. Modeling pH in Natural Waters. (MCAD) Sielemann, M.; Andersen, N. P.; Keiding, K. April, 528. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. pH of Sodium Acetate Solutions. (Letter) Schmitz, G. January, 29. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113. Statistical Study of Distribution Diagrams for Two-Component Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. MoyaHernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. March, 389–392.
Administrative Issues Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) Doyle, M. P. September, 1038–1044. ACS National Meeting: Boston, August 18–22 2002. Notices, Division of Chemical Education. August, 915. ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. Middlecamp, C. H.; Russell, A. A.; Torre, F. August, 906–913. ACS National Meeting: Orlando, April 7–11, 2002. Notices, Division of Chemical Education. March, 296. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. Pulliam, E.; Shanbhag, V.; Torre, F. March, 282–289. ACS Presidential Election: Statement on Education—A Core Commitment of Chemists and the ACS. Casey, C. P. September, 1036.
*The Subject Index is organized by keywords and features. Articles are listed by title, author, month, and page number. A key to the abbreviations is on page 1490.
ACS Presidential Election: Statement on Education— Education at the Core. Kwiram, A. L. September, 1037. Advanced High School Chemistry. (Editorial) Moore, J. W. August, 903. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) Buntrock, R. E. April, 431–432. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) Caswell, M. April, 432. The Chemistry–Biology Connection. (Editorial) Moore, J. W. November, 1287. Division of Chemical Education: News and Notices. (ACS) April, 422. Exams Institute Moves. (ACS) Jones, D. E. June, 671. Executive Committee Report, April 2002. (ACS) Towns, M. H.; Sarquis, J. L.; Sarquis, A. M. July, 793–794. Executive Committee Report, September 2002. (ACS) Sarquis, J. L.; Hoffman, M. Z.; Cooper, M. M. December, 1410–1412. Flickering Clusters: Women, Science, and Collaborative Transformations (edited by Cheryl Ney, Jacqueline Ross, and Laura Stempel). (BMR) Chapman, S. August, 943–944. Frontier Chemistry. (EHST) Jacobsen, E. K. July, 777. A Guide to Classroom Instruction for Adjunct Faculty (by John H. Reed. (BMR) Karty, J. M. November, 1325–1326. Hi, I’m from the Administration and I’m Here to Help: My Journey to the Far Side. (2YC3) Jones, R. F. December, 1394–1395. JCE Workshops at 17 BCCE. May, 547. A Long Way to Go. (Editorial) Moore, J. W. April, 407. MACTLAC–Supporting Liberal Arts Chemistry Faculty. Muyskens, M. A. June, 670–671. Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC3) Bhat, C.; Gaglione, O. G. July, 795. News & Announcements. January, 8–9, 25–28 ; February, 159–160; March, 309; April, 427–428; May, 555–557; June, 675–676; July, 801–802; August, 939–940; September, 1067–1069; October, 1199– 1201; November, 1317–1319; December, 1417– 1418. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016. Should All Information Be Free? (Editorial) Moore, J. W. March, 279. Transitions and Interfaces. (EHST) Mason, D. S. November, 1289. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Advanced Chemistry Classroom and Laboratory Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Symmetry Groups of Two Nonrigid Molecules. (ACL) Kettle, S. F. February, 258–263. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502.
Aluminum Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118.
Amino Acids Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373.
Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. D’Andrea, G.; Di Nicolantonio, G. August, 972–975. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Lentini, G. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Leung, S. H. May, 559.
Analytical Chemistry Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Analytical Chemistry in a GMP Environment: A Practical Guide (edited by James M. Miller and Jonathan B. Crowther). (BMR) Harvey, D. T. December, 1419. Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. Chemical Speciation: A Guide to Understand Titrimetric Analysis. Liyanage, J. A.; Janaratne, T. May, 635–636. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Hawkes, S. J. February, 162–163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Roberts, J. L. Jr. February, 161–162. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. September, 1114–1116. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. Harvey, D. T. May, 613–615. Flawed Nature of the Calibration Factor in Breath-Alcohol Analysis. Labianca, D. A. October, 1237–1240. Fundamentals of Electroanalytical Chemistry (by Paul M. S. Monk). (BMR) Langhus, D. L. October, 1207–1208. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.;
JChemEd.chem.wisc.edu • Vol. 79 No. 12 December 2002 • Journal of Chemical Education
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Subject Index • Volume 79 • 2002 Kusch, P.; Neugebauer, M. January, 98–100. Integrating HPLC and Electrochemistry: A LabVIEWBased Pulsed Amperometric Detection System. Jensen, M. B. March, 345–348. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. Scorrano, G.; Nicolini, N.; Masoner, I. M. January, 47–52. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Nonlinear Fits of Standard Curves: A Simple Route to Uncertainties in Unknowns. Salter, C.; de Levie, R. February, 268–270. Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. Harbron, E. J.; Barbara, P. F. February, 211–213. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. Blitz, J. P.; Klarup, D. G. November, 1358–1360. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256. Two Experiments Illustrating the Importance of Sampling in a Quantitative Chemical Analysis. Harvey, D. T. March, 360–363. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Applications and Analogies Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. Fingerprinting: Commercial Products and Elements. (AA) Allen, D.; Oliver-Hoyo, M. T. April, 459–461. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Aqueous Solution Chemistry Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Denitrification as a Model Chemical Process. Grguric, G. February, 179–182. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696.
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JCE Online Index: http://JChemEd.chem.wisc.edu
Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Arsenic(III) Oxide. (CLIP) Young, J. A. January, 23.
V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. September, 1114–1116. Fingerprinting: Commercial Products and Elements. (AA) Allen, D.; Oliver-Hoyo, M. T. April, 459–461. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. Page, M. A.; Smith, B. W.; Williams, K. R. March, 364–365. Organic Structures from Spectra (by L. D. Field, S. Sternhell, and J. R. Kalman). (BMR) Rosan, A. M. November, 1323–1324. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502.
Association Reports, 2YC3
Award Address
FLASH Consortium. (2YC3) Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. May, 544–547. Hi, I’m from the Administration and I’m Here to Help: My Journey to the Far Side. (2YC3) Jones, R. F. December, 1394–1395. Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC3) Bhat, C.; Gaglione, O. G. July, 795. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) Muzzi, C. July, 791–792.
Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) Doyle, M. P. September, 1038–1044. Conant Award Interview: An Interview with Theresa Corley, 2002 Award Winner. JCE Editorial Staff. September, 1046–1052. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) Peters, D. G. July, 783–786.
Association Reports, ACS
Barium Chloride Dihydrate. (CLIP) Young, J. A. May, 554.
Aromaticity/Aromatics New Approach to Understanding Oxidation–Reduction of Compounds in Organic Chemistry. Menzek, A. June, 700–702. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344.
Arsenic
Division of Chemical Education: News and Notices. (ACS) April, 422. Exams Institute Moves. (ACS) Jones, D. E. June, 671. Executive Committee Report, April 2002. (ACS) Towns, M. H.; Sarquis, J. L.; Sarquis, A. M. July, 793–794. Executive Committee Report, September 2002. (ACS) Sarquis, J. L.; Hoffman, M. Z.; Cooper, M. M. December, 1410–1412.
Astrochemistry Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108.
Atmospheric Chemistry Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul Crutzen, Sherwood Rowland, and Mario Molina. Van Houten, J. October, 1182–1188.
Atomic Properties/Structure Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. Karol, P. J. January, 60–63. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) Rioux, F. December, 1404–1406. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004.
Atomic Spectroscopy Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. Porter,
Barium
Biochemistry Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Biochemistry of Signal Transduction and Regulation, 2nd Edition (by Gerhard Krauss). (BMR) Minderhout, V. November, 1321–1322. Bioinformatics by Example: From Sequence to Target. Kossida, S.; Tahri, N.; Daizadeh, I. December, 1480– 1485. Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Carbohydrate Analysis: Can We Control the Ripening of Bananas? Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. April, 479–480. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Determining Oxidation–Reduction on a Simple Number Line. Cox, A. L.; Cox, J. R. August, 965–967. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. Fisher, M. A.; Johnston, D.; Ritt, D. A. March, 374–376. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. Aledo, J. C.; Esteban del Valle, A. November, 1336–1339. Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. D’Andrea, G.; Di Nicolantonio, G. August, 972–975. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. News from Online: WWW Sites for Biochemistry Teachers. (ROJOnline) Hicks, B. W. May, 536–539. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of
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Volume 79 • 2002 • Subject Index
Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. Guzmán-Casado, M.; Parody-Morreale, A. March, 327–331. Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L.; Roberts, J. R. March, 366–368. Oligosaccharides: Their Synthesis and Biological Roles (by Helen Osborn and Tariq Kahn). (BMR) Shelton, M. C. May, 562. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Lentini, G. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Leung, S. H. May, 559. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. May, 551–552. Understanding Biochemical Dissociation Constants: A Temporal Perspective. Jakubowski, H. V. August, 968– 971. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ault, A. March, 311. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ochs, R. S. March, 311. Using Infrared Spectroscopy to Investigate Protein Structure. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. March, 369–371.
Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. December, 1475– 1476. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. Fisher, M. A.; Johnston, D.; Ritt, D. A. March, 374–376. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. Guzmán-Casado, M.; Parody-Morreale, A. March, 327–331. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Using Infrared Spectroscopy to Investigate Protein Structure. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. March, 369–371.
Bioinorganic Chemistry
Bonding Theory
Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434.
Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352.
Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Evergreen: The Tetrahedral Bond Angle. ten Hoor, M. J. August, 956–957. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Understanding and Interpreting Molecular Electron Density Distributions. Matta, C. F.; Gillespie, R. J. September, 1141–1152.
Biophysical Chemistry
Book and Media Reviews
Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. January, 115–116. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373.
ABCs of FT-NMR (by John D. Roberts). (BMR) Shibata, J. H. November, 1324–1325. Academic Excellence (edited by Michael P. Doyle). (BMR) Mohrig, J. R. February, 165–166. Analytical Chemistry in a GMP Environment: A Practical Guide (edited by James M. Miller and Jonathan B. Crowther). (BMR) Harvey, D. T. December, 1419. Applications of Inorganic Mass Spectrometry (by John R. de Laeter). (BMR) Boggess, B. October, 1206– 1207. Applied Polymer Science: 21st Century (edited by Clara D. Craver and Charles E. Carraher, Jr.). (BMR) Allin, S. B. August, 942.
Bioorganic Chemistry
Biotechnology Bioinformatics by Example: From Sequence to Target. Kossida, S.; Tahri, N.; Daizadeh, I. December, 1480– 1485. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89.
Biochemistry of Signal Transduction and Regulation, 2nd Edition (by Gerhard Krauss). (BMR) Minderhout, V. November, 1321–1322. Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) Conover, W. June, 679–680. Carbohydrates: The Sweet Molecules of Life (by Robert V. Stick). (BMR) Gooch, E. E. May, 562–563. Chemical Kinetics and Catalysis (by Richard I. Masel). (BMR) Pagni, R. M. March, 313. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 (by American Chemical Society and ACS Board–Council Committee on Chemical Safety). (BMR) Keith-Lucas, L. March, 315–316. Chemical Sciences in the 20th Century: Bridging Boundaries (edited by Carsten Reinhardt). (BMR) Bernal, P. J. April, 433. Chemistry, 2nd Edition (by Rob Lewis and Wynne Evans). (BMR) Conover, W. April, 437–438. Chemistry CD (by B. C. Sanctuary). (BMR) Steehler, J. K. February, 166. Chemistry for the 21st Century (edited by Ehud Keinan and Israel Schechter). (BMR) Earley, J. E. January, 33. Chemistry, Society, and Environment. A New History of the British Chemical Industry (edited by Colin A. Russell). (BMR) Stanitski, C. May, 563–564. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives (by Henning Hopf ). (BMR) Magid, R. January, 34. Drugs and the Human Body: With Implications for Society, 6th Edition (by Ken Liska). (BMR) Schedler, D. J. July, 805. Effects of Changing Climate on Weather and Human Activities (by Kevin E. Trenberth, Kathleen Miller, Linda Mearns, and Steven Rhodes). (BMR) Williams, E. T. April, 433–434. Everybody Wins! 2nd Edition (by Gordon Cain). (BMR) Caswell, M. May, 561. Experiments in Organic Chemistry, 2nd Edition (by Richard K. Hill and J. Barbaro). (BMR) Gooch, E. E. November, 1320–1321. Flickering Clusters: Women, Science, and Collaborative Transformations (edited by Cheryl Ney, Jacqueline Ross, and Laura Stempel). (BMR) Chapman, S. August, 943–944. Foundations of Chemistry: Special Issue on the Periodic System (edited by Eric R. Scerri). (BMR) Bernal, P. J. December, 1420. From Coello to Inorganic Chemistry: A Lifetime of Reactions (Profiles in Inorganic Chemistry) (by Fred Basolo). (BMR) Crumbliss, A. L. October, 1206. Functional Group Chemistry (by James R. Hanson). (BMR) Karty, J. M. June, 678–679. Fundamentals of Electroanalytical Chemistry (by Paul M. S. Monk). (BMR) Langhus, D. L. October, 1207– 1208. FX Chem 2 (by Efofex Software). (BMR) Clark, R. W. December, 1421–1422. The Genie in the Bottle (by Joe Schwarcz. (BMR) Kovac, J. D. March, 316. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) Frech, C. B. September, 1072. A Guide to Classroom Instruction for Adjunct Faculty (by John H. Reed. (BMR) Karty, J. M. November, 1325–1326. Heterocyclic Chemistry (by Malcolm Sainsbury). (BMR) Pagni, R. M. September, 1073–1074. Holleman-Wiberg’s Inorganic Chemistry (edited by Nils Wiberg). (BMR) Jensen, W. B. August, 944–946. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) Pounds, A. April, 434–435. Introduction to Synthetic Polymers, 2nd Edition (by Ian M. Campbell). (BMR) Waldow, D. May, 561–562. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) Doerrer, L. H. July, 806–807. Ligand Field Theory and Its Applications (by Brian N. Figgis and Michael A. Hitchman). (BMR) Turner, J. F. September, 1072–1073. Linus Pauling: Scientist and Peacemaker. A Centenary Volume (edited by Clifford Mead and Thomas Hager). (BMR) Davenport, D. A. August, 946–948. Linus Pauling: Selected Scientific Papers (World Scientific Series in 20th Century Chemistry, Volume 10) (editor-in-chief Barclay Kamb). (BMR) Davenport, D. A. August, 946–948. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) Geiger, P. July, 805–806. Naturally Dangerous: Surprising Facts about Food,
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Subject Index • Volume 79 • 2002 Health, and the Environment (by James P. Collman). (BMR) Harris, H. H. January, 35. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition (by J. K. Akitt and B. E. Mann). (BMR) Mehta, M. June, 677. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition (by Karl Heinrich Lieser). (BMR) Keedy, C. R. January, 35–36. Oligosaccharides: Their Synthesis and Biological Roles (by Helen Osborn and Tariq Kahn). (BMR) Shelton, M. C. May, 562. Optics Demonstrations on the Overhead Projector (by Douglas S. Goodman). (BMR) Kolb, D. April, 436– 437. Organic Structures from Spectra (by L. D. Field, S. Sternhell, and J. R. Kalman). (BMR) Rosan, A. M. November, 1323–1324. Oxygen (by Carl Djerassi and Roald Hoffmann). (BMR) Kovac, J. D. April, 436. Profiles in Science: The Linus Pauling Papers (by National Library of Medicine). (BMR) Davenport, D. A. August, 946–948. The Research Notebooks of Linus Pauling (Digitized and released online by Oregon State University Special Collections.) (BMR) Davenport, D. A. August, 946– 948. The Science of Chocolate (by Stephen T. Beckett. (BMR) Kovac, J. D. February, 167–168. A Serious but Not Ponderous Book about Nuclear Energy (by Walter Scheider. (BMR) Geiger, P. March, 314–315. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205. Statistical Mechanics: A Concise Introduction for Chemists (by Benjamin Widom). (BMR) Kovac, J. D. November, 1322. Stereochemistry (by David G. Morris). (BMR) Crouch, R. D. February, 167. Stratospheric Ozone Depletion (by Ann M. Middlebrook and Margaret A. Tolbert). (BMR) Williams, E. T. April, 433–434. Survival Guide for Physical Chemistry (by Michelle Francl). (BMR) Elrod, M. J. September, 1074–1075. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) Bernal, P. J. September, 1075–1076. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) Smith, P. M. July, 807– 808. Transition Metal Carbonyl Cluster Chemistry (by Paul J. Dyson and J. Scott McIndoe). (BMR) Doerrer, L. H. June, 677–678. Uncle Tungsten: Memories of a Chemical Boyhood (by Oliver Sacks). (BMR) Schwartz, A. T. March, 312.
Calcium Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. Chemical Speciation: A Guide to Understand Titrimetric Analysis. Liyanage, J. A.; Janaratne, T. May, 635– 636. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B.
Calculator-Based Learning Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Survey of Computer Use in Undergraduate Physical Chemistry. Miles, D. G.; Francis, T. A. December, 1477–1479. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. Cortés-Figueroa, J. E.; Moore, D. A. December, 1462–1464.
Calorimetry Chemically Relevant Model for Teaching the Second Law of Thermodynamics. Williamson, B. E.; Morikawa, T. March, 339–342. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505.
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Carbohydrates Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Carbohydrate Analysis: Can We Control the Ripening of Bananas? Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. April, 479–480. Carbohydrates: The Sweet Molecules of Life (by Robert V. Stick). (BMR) Gooch, E. E. May, 562–563. Oligosaccharides: Their Synthesis and Biological Roles (by Helen Osborn and Tariq Kahn). (BMR) Shelton, M. C. May, 562. Synthesis of 4-Methylumbellifer-7-yl-α- D -Mannopyranoside: An Introduction to Modern Glycosylation Reactions. Penverne, C.; Ferrières, V. November, 1353–1354.
Catalysis Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chemical Kinetics and Catalysis (by Richard I. Masel). (BMR) Pagni, R. M. March, 313. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822– 823. Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. Martel, D.; Sojic, N.; Kuhn, A. March, 349–352. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. April, 489–491. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588–591.
Chemical Dynamics Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. Van Houten, J. January, 21–22. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1909: Wilhelm Ostwald. Van Houten, J. February, 146–148. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. Van Houten, J. March, 301–304. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1956: Hinshelwood and Semenov. Van Houten, J. April, 414–416. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1967: Eigen, Norrish, and Porter. Van Houten, J. May, 548–550. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. Van Houten, J. June, 667–669. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. Van Houten, J. July, 788–790. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. Van Houten, J. August, 926–933. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. Van Houten, J. September, 1055– 1059. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul
Crutzen, Sherwood Rowland, and Mario Molina. Van Houten, J. October, 1182–1188. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. Van Houten, J. November, 1297–1306. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822– 823.
Chemical Education Research Action Research Report: Improving Pre-Laboratory Preparation of First- Year University Chemistry Students. (ROJResLit) Lyle, K. S.; Robinson, W. R. June, 663–665. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. Özkaya, A. R. June, 735–738. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. Seal, B. C.; Wynne, D. H.; MacDonald, G. February, 239–243. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. April, 520–523. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Implementing the Professional Development Standards. An Innovative M.S. Degree for High School Chemistry Teachers. Bretz, S. L. November, 1307–1309. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744. Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744. Is Salt Melting When It Dissolves in Water? Goodwin, A. March, 393–396. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016. Research with First- and Second-Year Undergraduates: A New Model for Undergraduate Inquiry at Research Universities. Hutchison, A. R.; Atwood, D. A. January, 125–126. Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Survey of Computer Use in Undergraduate Physical Chemistry. Miles, D. G.; Francis, T. A. December, 1477–1479. Talking about Science. (ROJResLit) Lyle, K. S.; Robinson, W. R. January, 18–20. Teacher Perceptions in the Selection of Experiments. Montes, L. D.; Rockley, M. G. February, 244–247. Teaching for Understanding. (Editorial) Moore, J. W. July, 775. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. April, 514–519. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. April, 514–519. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895.
Chemical Education Research— Constructivism Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. May, 551–552.
Chemical Education Research— Learning Theories Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. Second Law: Statement and Applications. Infelta, P. July, 884–888.
Chemical Education Research— Misconceptions Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. Özkaya, A. R. June, 735–738. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762.
Volume 79 • 2002 • Subject Index Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744. Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Second Law: Statement and Applications. Infelta, P. July, 884–888. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895.
Chemical Education Research— Particulate Nature of Matter Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744.
Chemical Education Research— Problem Solving Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513.
Chemical Education Research— Qualitative Methods Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191.
Chemical Education Research— Quantitative Methods Action Research Report: Improving Pre-Laboratory Preparation of First- Year University Chemistry Students. (ROJResLit) Lyle, K. S.; Robinson, W. R. June, 663–665. Teaching for Understanding. (Editorial) Moore, J. W. July, 775.
Chemical Education Research— Statistics Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016.
Chemical Education Research— Student-Centered Learning Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. HatcherSkeers, M.; Aragon, E. April, 462–464. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. April, 520–523. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134.
Implementing the Professional Development Standards. An Innovative M.S. Degree for High School Chemistry Teachers. Bretz, S. L. November, 1307–1309. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. Teacher Perceptions in the Selection of Experiments. Montes, L. D.; Rockley, M. G. February, 244–247. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. April, 514–519.
Chemical Engineering Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191.
Chemical Information Bioinformatics by Example: From Sequence to Target. Kossida, S.; Tahri, N.; Daizadeh, I. December, 1480– 1485. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Foundations of Chemistry: Special Issue on the Periodic System (edited by Eric R. Scerri). (BMR) Bernal, P. J. December, 1420. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Journal of Chemical Education on CD-ROM, 2001. (JCE Software) January, 136. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) Heinhorst, S.; Cannon, G. January, 10–12. Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191. The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) Clark, R. W. February, 154. The Science Teacher: Summer 2002. (ROJSciTea) Long, S. August, 924–925. The Science Teacher: Winter 2002. (ROJSciTea) Long, S. February, 142–144. Talking about Science. (ROJResLit) Lyle, K. S.; Robinson, W. R. January, 18–20. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) O’Reilly, S. A.; Wilson, A. M.; Howes, B. April, 524–526.
Chemical Information Instructor Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) O’Reilly, S. A.; Wilson, A. M.; Howes, B. April, 524–526.
Chemical Laboratory Information Profile Acetaldehyde. (CLIP) Young, J. A. June, 672. Anthracene. (CLIP) Young, J. A. May, 553.
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Subject Index • Volume 79 • 2002 Arsenic(III) Oxide. (CLIP) Young, J. A. January, 23. Barium Chloride Dihydrate. (CLIP) Young, J. A. May, 554. Copper(II) Sulfate Pentahydrate. (CLIP) Young, J. A. February, 158. Ethylenediaminetetraacetic Acid. (CLIP) Young, J. A. April, 426. Formic Acid (85–95%). (CLIP) Young, J. A. February, 157. Glass Wool. (CLIP) Young, J. A. June, 673. Mercury(I) Chloride. (CLIP) Young, J. A. July, 799. Nitric Acid (approx. 70%). (CLIP) Young, J. A. December, 1413. Oleic Acid. (CLIP) Young, J. A. January, 24. Osmium Tetroxide. (CLIP) Young, J. A. September, 1064. Potassium Chlorate. (CLIP) Young, J. A. August, 936. Potassium Chromate. (CLIP) Young, J. A. September, 1065. Potassium Perchlorate. (CLIP) Young, J. A. August, 937. Sodium Acetate. (CLIP) Young, J. A. November, 1314. Sodium Carbonate (anhydrous). (CLIP) Young, J. A. November, 1315. Sodium. (CLIP) Young, J. A. April, 425. Sodium Fluoride. (CLIP) Young, J. A. October, 1197. Sodium Hypochlorite Solution. (CLIP) Young, J. A. October, 1196. Sodium Nitrate. (CLIP) Young, J. A. December, 1414. Sodium Thiosulfate Pentahydrate. (CLIP) Young, J. A. July, 798. Sulfur. (CLIP) Young, J. A. September, 1063.
Chirality/Optical Isomers Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Chlorine Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993.
Chromatography Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Colored Bands: History of Chromatography. (FPI) Williams, K. R. August, 922–923. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Fractional Distillation and GC Analysis of Hydrocarbon Mixtures. Donahue, C. J. June, 721–723. Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.; Kusch, P.; Neugebauer, M. January, 98–100. Integrating HPLC and Electrochemistry: A LabVIEWBased Pulsed Amperometric Detection System. Jensen, M. B. March, 345–348. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632.
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Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
Cobalt Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497.
Collaborative/Cooperative Learning Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821. The Chemistry–Biology Connection. (Editorial) Moore, J. W. November, 1287. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. HatcherSkeers, M.; Aragon, E. April, 462–464. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. April, 484–485. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. April, 514–519. Using Proverbs in Chemistry. Ibanez, J. G. April, 454– 455.
Colloids Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. Simple Apparatus for Gravitational Sedimentation. (CET) Hu, D.; Cui, Y.; Fang, Y. May, 623–625.
Combinatorial Chemistry Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. January, 85–86.
Commentary Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. Interdisciplinary Research: A Student’s Perspective. (Commentary) Brown, E. N. January, 13–15. “Real-Time” Chemistry and Chemical Education. (Commentary) Ellis, A. B. September, 1034–1035. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. What’s Wrong with Cookbooks? (Commentary) Ault, A. October, 1177.
Computational Chemistry Application of the WKB Approximation in the Solution of the Schrödinger Equation. Gasyna, Z. L.; Light, J. C. January, 133–134. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Hands-On Introduction to Molecular Dynamics. Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R.; Schauble, C. J. May, 601–606. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Hydrogen Molecular Ion Revisited. Grivet, J. January, 127–132. Michael Reaction. Poon, T.; Mundy, B. P.; Shattuck, T. W. February, 264–267. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) Rioux, F. December, 1404–1406. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. Van Houten, J. November, 1297–1306. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) Tyler, D. R. November, 1372–1376. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
Computer Bulletin Board Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) Tyler, D. R. November, 1372–1376.
Computer-Based Learning ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Chemical Name Game. (JCE WebWare) Hanson, R. M. November, 1380. Chemical Speciation: A Guide to Understand Titrimetric Analysis. Liyanage, J. A.; Janaratne, T. May, 635–636. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. Holder, D. A.; Johnson, B. G.; Karol, P. J. April, 465–467. Denitrification as a Model Chemical Process. Grguric, G. February, 179–182. Early Automated Testing: The 5-0-2. (FPI) Williams, K. R. January, 16–17. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. April, 520–523. FX Chem 2 (by Efofex Software). (BMR) Clark, R. W. December, 1421–1422. General Chemistry Collection for Students, 6th Edition. (JCE Software) May, 637–638. Hückel Determinant Solver. (JCE WebWare) Hanson, R. M. November, 1379. Introduction to NMR Concepts. (MCAD) Van Bramer, S. E. April, 528. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Mathcad Documents and Student Learning. (MCAD) Zielinski, T. J. April, 527–528. Mechanism-Based Kinetics Simulator. (JCE WebWare) Hanson, R. M. November, 1379. Modeling pH in Natural Waters. (MCAD) Sielemann, M.; Andersen, N. P.; Keiding, K. April, 528. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Prospectus 2002. (JCE Software) Holmes, J. L.; Gettys, N. S. February, 271–272. Saving a Drug Poisoning Victim: A Kinetics Simulation. Selco, J. I.; Beery, J. May, 578–582. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) Lim, K. F. January, 135. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) Vitz, E. July, 896. Student Access to Symbolic Mathematics Software. (MCAD) Zielinski, T. J. November, 1377. Survey of Computer Use in Undergraduate Physical Chemistry. Miles, D. G.; Francis, T. A. December, 1477–1479. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. Cortés-Figueroa, J. E.; Moore, D. A. December, 1462–1464. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1379. What’s in a Name? (JCE WebWare) Hanson, R. M. November, 1380. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Concepts in Biochemistry Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384.
Conferences ACS National Meeting: Boston, August 18–22 2002. Free Time in Boston? Morris, L. W. August, 914. ACS National Meeting: Boston, August 18–22 2002. Notices, Division of Chemical Education. August, 915. ACS National Meeting: Boston, August 18–22 2002. Presidential Plenary Sessions. August, 916.
Volume 79 • 2002 • Subject Index ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. Middlecamp, C. H.; Russell, A. A.; Torre, F. August, 906–913. ACS National Meeting: Boston, August 18–22 2002. Undergraduate Program and High School Program. August, 904–905. ACS National Meeting: Orlando, April 7–11, 2002. CHED-Sponsored Workshop. March, 292. ACS National Meeting: Orlando, April 7–11, 2002. High School Program. March, 292. ACS National Meeting: Orlando, April 7–11, 2002. Notices, Division of Chemical Education. March, 296. ACS National Meeting: Orlando, April 7–11, 2002. Presidential Plenary Session. March, 293. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. Pulliam, E.; Shanbhag, V.; Torre, F. March, 282–289. ACS National Meeting: Orlando, April 7–11, 2002. Undergraduate Program. March, 294. Conference Overview: 17th Biennial Conference on Chemical Education, Western Washington University, July 28–August 1, 2002. Kriz, G. S.; Selfe, S. June, 660–662. Disciplina, Paedisium, Civitatis: Attend a Summer Meeting and Open Up Your World. (EHST) Mason, D. S. June, 649. Executive Committee Report, April 2002. (ACS) Towns, M. H.; Sarquis, J. L.; Sarquis, A. M. July, 793–794. Executive Committee Report, September 2002. (ACS) Sarquis, J. L.; Hoffman, M. Z.; Cooper, M. M. December, 1410–1412. Intellectual Couch Potato? (EHST) Mason, D. S. August, 905. JCE Workshops at 17 BCCE. May, 547. Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC3) Bhat, C.; Gaglione, O. G. July, 795. Meeting Reports. 17th Biennial Conference on Chemical Education—Chemistry: The Elements of Change. Jones, R. F. December, 1407–1408. News & Announcements. January, 8–9, 25–28 ; February, 159–160; March, 309; April, 427–428; May, 555– 557; June, 675–676; July, 801–802; August, 939–940; September, 1067–1069; October, 1199–1201; November, 1317–1319; December, 1417–1418. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) Muzzi, C. July, 791–792.
Consumer Chemistry After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Brushing Up on Chemistry. (JCE Classroom Activity) Trantow, A. October, 1168A–1168B. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Frontier Chemistry. (EHST) Jacobsen, E. K. July, 777. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman). (BMR) Harris, H. H. January, 35. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. Through the Looking Glass. (JCE Classroom Activity) JCE Editorial Staff. November, 1360A–1360B. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B.
Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Coordination Chemistry Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Copper(III) Dithiocarbamates. An Undergraduate Experimental Project with Unexpected Challenges. Victoriano, L. I. October, 1252–1253. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. Van Houten, J. July, 788–790. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
Copper Copper(II) Sulfate Pentahydrate. (CLIP) Young, J. A. February, 158. Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. Dunnivant, F. M.; Kettel, J. June, 715–717. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357.
Corrections Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Correction to Chemical Laboratory Information Profile: Anthracene (re J. Chem. Educ. 2002, 79, 553). (Correction) Young, J. A. September, 1071. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071.
Cost-Effective Teacher Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. Simple Apparatus for Gravitational Sedimentation. (CET) Hu, D.; Cui, Y.; Fang, Y. May, 623–625. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361.
Cryogenics Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221.
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Subject Index • Volume 79 • 2002 Crystallography/Crystal Growth Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L.; Roberts, J. R. March, 366–368. Synthesis and Spectral and Thermal Properties of Pyrazinebridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355–1357. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344.
Curricular Change Digests Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821.
Curriculum Application of the WKB Approximation in the Solution of the Schrödinger Equation. Gasyna, Z. L.; Light, J. C. January, 133–134. Articulations: A Case for “Physics First”. (EHST) Mason, D. S. December, 1393. FLASH Consortium. (2YC3) Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. May, 544–547. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. July, 837–844. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) Koether, M. C.; McGarey, D.; Patterson, M.; Williams, D. J. August, 934–935. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988.
Demonstrations Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) Williams, K. R. October, 1168–1169.
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Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. HatcherSkeers, M.; Aragon, E. April, 462–464. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A SmallGroup or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70– 73. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. JCE Workshops at 17 BCCE. May, 547. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Nitrogen Triiodide. (Letter) Tudela, D. May, 558. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186. Optics Demonstrations on the Overhead Projector (by Douglas S. Goodman). (BMR) Kolb, D. April, 436– 437. The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) Clark, R. W. February, 154. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822– 823. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Statistical Study of Distribution Diagrams for Two-Component Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. MoyaHernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. March, 389–392. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Descriptive Chemistry DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488.
Diffusion Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. December, 1475– 1476.
Distance Learning Getting Connected Online. (EHST) Mason, D. S. May, 537. Intellectual Couch Potato? (EHST) Mason, D. S. August, 905. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) Smith, P. M. July, 807– 808.
Drugs/Pharmaceuticals Bioinformatics by Example: From Sequence to Target. Kossida, S.; Tahri, N.; Daizadeh, I. December, 1480– 1485. Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. Drugs and the Human Body: With Implications for Society, 6th Edition (by Ken Liska). (BMR) Schedler, D. J. July, 805. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. Flawed Nature of the Calibration Factor in Breath-Alcohol Analysis. Labianca, D. A. October, 1237–1240. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) Geiger, P. July, 805–806. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256.
Dyes/Pigments New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113.
Editorial Advanced High School Chemistry. (Editorial) Moore, J. W. August, 903. The Chemistry–Biology Connection. (Editorial) Moore, J. W. November, 1287. Educating Stewards of Our Discipline. (Editorial) Moore, J. W. October, 1159. Educating Teachers. (Editorial) Moore, J. W. June, 647. Graduate Education. (Editorial) Moore, J. W. January, 7. A Long Way to Go. (Editorial) Moore, J. W. April, 407. Research/Teaching Partnerships. (Editorial) Moore, J. W. September, 1031. Resolving to Contribute. (Editorial) Moore, J. W. February, 141. Scientific Misconduct. (Editorial) Moore, J. W. December, 1391. Should All Information Be Free? (Editorial) Moore, J. W. March, 279. Teaching as Research. (Editorial) Moore, J. W. May, 535. Teaching for Understanding. (Editorial) Moore, J. W. July, 775.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html
Volume 79 • 2002 • Subject Index
Electrochemistry
Environmental Chemistry
Equilibrium
Chemically Relevant Model for Teaching the Second Law of Thermodynamics. Williamson, B. E.; Morikawa, T. March, 339–342. Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. Özkaya, A. R. June, 735–738. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Fundamentals of Electroanalytical Chemistry (by Paul M. S. Monk). (BMR) Langhus, D. L. October, 1207– 1208. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Integrating HPLC and Electrochemistry: A LabVIEWBased Pulsed Amperometric Detection System. Jensen, M. B. March, 345–348. Lead–Acid Battery: Its Voltage in Theory and Practice. Treptow, R. S. March, 334–338. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. Vitz, E. March, 397– 400. Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. Martel, D.; Sojic, N.; Kuhn, A. March, 349–352. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Chemistry, Society, and Environment. A New History of the British Chemical Industry (edited by Colin A. Russell). (BMR) Stanitski, C. May, 563–564. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Effects of Changing Climate on Weather and Human Activities (by Kevin E. Trenberth, Kathleen Miller, Linda Mearns, and Steven Rhodes). (BMR) Williams, E. T. April, 433–434. Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. Dunnivant, F. M.; Kettel, J. June, 715–717. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) Frech, C. B. September, 1072. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) Koether, M. C.; McGarey, D.; Patterson, M.; Williams, D. J. August, 934–935. Midgley—A Two-Time Environmental Loser. (Letter) Kauffman, G. B. May, 559. Modeling pH in Natural Waters. (MCAD) Sielemann, M.; Andersen, N. P.; Keiding, K. April, 528. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman). (BMR) Harris, H. H. January, 35. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696. Stratospheric Ozone Depletion (by Ann M. Middlebrook and Margaret A. Tolbert). (BMR) Williams, E. T. April, 433–434. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726.
Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Ault, A. September, 1070. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Sabadini, E. September, 1071. Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. Özkaya, A. R. June, 735–738. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Hawkes, S. J. February, 162–163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Roberts, J. L. Jr. February, 161–162. Effect of Mutual Solubility of Solvents in Multiple Liquid–Liquid Extraction. Michalowski, T. October, 1267–1268. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Second Law: Statement and Applications. Infelta, P. July, 884–888. Understanding Biochemical Dissociation Constants: A Temporal Perspective. Jakubowski, H. V. August, 968– 971. Using Limiting–Excess Stoichiometry to Introduce Equilibrium Calculations: A Discrepant Event Laboratory Activity Involving Precipitation Reactions. DeMeo, S. April, 474–475.
Electron Transport Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. Van Houten, J. September, 1055– 1059. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988.
Electrophoresis Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. December, 1475– 1476. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350.
Elementary/Middle School Science Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. HatcherSkeers, M.; Aragon, E. April, 462–464. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Through the Looking Glass. (JCE Classroom Activity) JCE Editorial Staff. November, 1360A–1360B. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43.
Enzymes Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Carbohydrates: The Sweet Molecules of Life (by Robert V. Stick). (BMR) Gooch, E. E. May, 562–563. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ault, A. March, 311. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ochs, R. S. March, 311.
Especially for High School Teachers Articulations: A Case for “Physics First”. (EHST) Mason, D. S. December, 1393. Chem Gems & Joules. (EHST) Mason, D. S. September, 1033. Commencement. (EHST) Mason, D. S. January, 8. Cross-Connections of Chemistry. (EHST) Mason, D. S. February, 143. Disciplina, Paedisium, Civitatis: Attend a Summer Meeting and Open Up Your World. (EHST) Mason, D. S. June, 649. Frontier Chemistry. (EHST) Jacobsen, E. K. July, 777. Getting Connected Online. (EHST) Mason, D. S. May, 537. Getting Hooked on Chemistry. (EHST) Mason, D. S. April, 409. Inquiry Methods in Chemistry. (EHST) Mason, D. S. March, 281. Intellectual Couch Potato? (EHST) Mason, D. S. August, 905. New Crop of Opportunities. (EHST) Jacobsen, E. K. October, 1161. Spreading the Word. (EHST) Jacobsen, E. K. January, 9. Transitions and Interfaces. (EHST) Mason, D. S. November, 1289.
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Subject Index • Volume 79 • 2002 Ethics Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) Denyer, G. S.; Hancock, D. August, 961–964. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Scientific Misconduct. (Editorial) Moore, J. W. December, 1391.
JCE Online Index: http://JChemEd.chem.wisc.edu
Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. Harbron, E. J.; Barbara, P. F. February, 211–213. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344.
Fluorine Sodium Fluoride. (CLIP) Young, J. A. October, 1197.
Europium
Food Science
Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104.
Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Carbohydrate Analysis: Can We Control the Ripening of Bananas? Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. April, 479–480. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571.
Excited States/Energy Transfer Colorful Azulene and Its Equally Colorful Derivatives. Liu, R. S. February, 183–185. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502.
Faculty Development Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) Doyle, M. P. September, 1038–1044. Conceptual Difficulties Experienced by Prospective Teachers in Electrochemistry: Half-Cell Potential, Cell Potential, and Chemical and Electrochemical Equilibrium in Galvanic Cells. Özkaya, A. R. June, 735–738. Educating Teachers. (Editorial) Moore, J. W. June, 647. Hi, I’m from the Administration and I’m Here to Help: My Journey to the Far Side. (2YC3) Jones, R. F. December, 1394–1395. Implementing the Professional Development Standards. An Innovative M.S. Degree for High School Chemistry Teachers. Bretz, S. L. November, 1307–1309. MACTLAC–Supporting Liberal Arts Chemistry Faculty. Muyskens, M. A. June, 670–671. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. News & Announcements. January, 8–9, 25–28 ; February, 159–160; March, 309; April, 427–428; May, 555–557; June, 675–676; July, 801–802; August, 939–940; September, 1067–1069; October, 1199– 1201; November, 1317–1319; December, 1417– 1418. “Real-Time” Chemistry and Chemical Education. (Commentary) Ellis, A. B. September, 1034–1035. Research/Teaching Partnerships. (Editorial) Moore, J. W. September, 1031. Resolving to Contribute. (Editorial) Moore, J. W. February, 141. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) Muzzi, C. July, 791–792. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) Peters, D. G. July, 783–786. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) O’Reilly, S. A.; Wilson, A. M.; Howes, B. April, 524–526.
Fluorescence Spectrometry Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. January, 115–116. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid
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Forensic Chemistry Chemical Adventures of Sherlock Holmes: The Case of Three. Rybolt, T. R.; Waddell, T. G. April, 448–453. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Flawed Nature of the Calibration Factor in Breath-Alcohol Analysis. Labianca, D. A. October, 1237–1240. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256.
Fourier Transform Techniques ABCs of FT-NMR (by John D. Roberts). (BMR) Shibata, J. H. November, 1324–1325. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666.
Free Radicals Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361.
From Past Issues Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) Williams, K. R. October, 1168–1169. Colored Bands: History of Chromatography. (FPI) Williams, K. R. August, 922–923. Early Automated Testing: The 5-0-2. (FPI) Williams, K. R. January, 16–17. Fire Making, Part 1. (FPI) Williams, K. R. April, 408. Fire Making, Part 2. (FPI) Williams, K. R. May, 540– 542. Teaching and Learning Chemistry. (FPI) Rice, R. E. November, 1292–1294.
Gases 129Xe
NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. Pietraß, T. April, 492–493. First Law of Thermodynamics; Irreversible and Reversible Processes. Craig, N. C.; Gislason, E. A. February, 193–200. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883. Rare Gas Viscosities: A Learning Tool. Halpern, A. M. February, 214–216. Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. Lieu, V. T.; Kalbus, G. E. April, 473. Unknown Gases: Student-Designed Experiments in the Introductory Laboratory. Hanson, J.; Hoyt, T. July, 845–846.
General Chemistry Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850. Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) Conover, W. June, 679–680. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Chemistry CD (by B. C. Sanctuary). (BMR) Steehler, J. K. February, 166. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Chemistry Game Shows. Campbell, S.; Muzyka, J. April, 458. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Ault, A. September, 1070. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Sabadini, E. September, 1071. Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. Rodríguez, E.; Vicente, M. A. April, 486–488. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472. Denitrification as a Model Chemical Process. Grguric, G. February, 179–182. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. Sanger, M. J.; Geer, K. August, 994–996. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Determining Oxidation–Reduction on a Simple Number Line. Cox, A. L.; Cox, J. R. August, 965–967. Disorder—A Cracked Crutch for Supporting Entropy Discussions. Lambert, F. L. February, 187–192. Drugs and the Human Body: With Implications for Society, 6th Edition (by Ken Liska). (BMR) Schedler, D. J. July, 805. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Hawkes, S. J. February, 162–163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Roberts, J. L. Jr. February, 161–162.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. Entropy Is Simple, Qualitatively. Lambert, F. L. October, 1241–1246. Evergreen: The Tetrahedral Bond Angle. ten Hoor, M. J. August, 956–957. Fingerprinting: Commercial Products and Elements. (AA) Allen, D.; Oliver-Hoyo, M. T. April, 459–461. For Mole Problems, Call Avogadro: 602-1023. Uthe, R. E. October, 1213. Fractional Distillation and GC Analysis of Hydrocarbon Mixtures. Donahue, C. J. June, 721–723. Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. Holleman-Wiberg’s Inorganic Chemistry (edited by Nils Wiberg). (BMR) Jensen, W. B. August, 944–946. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. July, 837–844. Interactive Graphical Approach to Temperature Conversions. Mitschele, J. October, 1235–1236. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) Doerrer, L. H. July, 806–807. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Lead–Acid Battery: Its Voltage in Theory and Practice. Treptow, R. S. March, 334–338. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. Karol, P. J. January, 60–63. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755. Rate Law Determination of Everyday Processes. Sanger, M. J.; Wiley, R. A.; Richter, E. W.; Phelps, A. J. August, 989–991. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. Vitz, E. March, 397–400. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B.
Volume 79 • 2002 • Subject Index Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. Lieu, V. T.; Kalbus, G. E. April, 473. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. Dávila, R. M.; Widener, R. K. August, 997–999. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726. Teaching and Learning Chemistry. (FPI) Rice, R. E. November, 1292–1294. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) Smith, P. M. July, 807– 808. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895. Unknown Gases: Student-Designed Experiments in the Introductory Laboratory. Hanson, J.; Hoyt, T. July, 845–846. Using Limiting–Excess Stoichiometry to Introduce Equilibrium Calculations: A Discrepant Event Laboratory Activity Involving Precipitation Reactions. DeMeo, S. April, 474–475. Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. Nyasulu, F.; Macklin, J.; Cusworth, W. March, 356–359. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Genetics/Genetic Engineering Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313.
Graduate Education/Research ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. Fahlman, B. D. February, 203–206. Educating Stewards of Our Discipline. (Editorial) Moore, J. W. October, 1159. Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. Graduate Education. (Editorial) Moore, J. W. January, 7. Implementing the Professional Development Standards. An Innovative M.S. Degree for High School Chemistry Teachers. Bretz, S. L. November, 1307–1309. Interdisciplinary Research: A Student’s Perspective. (Commentary) Brown, E. N. January, 13–15. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Research with First- and Second-Year Undergraduates: A New Model for Undergraduate Inquiry at Research Universities. Hutchison, A. R.; Atwood, D. A. January, 125–126. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388.
Green Chemistry Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) Frech, C. B. September, 1072. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171.
Group Theory Generating Closed Shapes from Regular Tilings. Boo, W. O.; Mattern, D. L. August, 1017–1023. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) Vitz, E. July, 896. Symmetry Groups of Two Nonrigid Molecules. (ACL) Kettle, S. F. February, 258–263.
Heterocycles Heterocyclic Chemistry (by Malcolm Sainsbury). (BMR) Pagni, R. M. September, 1073–1074. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. January, 106–110.
History/Philosophy Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821. Chemistry for the 21st Century (edited by Ehud Keinan and Israel Schechter). (BMR) Earley, J. E. January, 33. Chemistry, Society, and Environment. A New History of the British Chemical Industry (edited by Colin A. Russell). (BMR) Stanitski, C. May, 563–564. Colored Bands: History of Chromatography. (FPI) Williams, K. R. August, 922–923. Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Early Automated Testing: The 5-0-2. (FPI) Williams, K. R. January, 16–17. Everybody Wins! 2nd Edition (by Gordon Cain). (BMR) Caswell, M. May, 561. Fire Making, Part 1. (FPI) Williams, K. R. April, 408. Fire Making, Part 2. (FPI) Williams, K. R. May, 540– 542. Foundations of Chemistry: Special Issue on the Periodic System (edited by Eric R. Scerri). (BMR) Bernal, P. J. December, 1420. From Coello to Inorganic Chemistry: A Lifetime of Reactions (Profiles in Inorganic Chemistry) (by Fred Basolo). (BMR) Crumbliss, A. L. October, 1206. H Is for Enthalpy, Thanks to Heike Kamerlingh Onnes and Alfred W. Porter. Howard, I. K. June, 697–698. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. Scorrano, G.; Nicolini, N.; Masoner, I. M. January, 47–52. Linus Pauling: Scientist and Peacemaker. A Centenary Volume (edited by Clifford Mead and Thomas Hager). (BMR) Davenport, D. A. August, 946–948. Linus Pauling: Selected Scientific Papers (World Scientific Series in 20th Century Chemistry, Volume 10) (editor-in-chief Barclay Kamb). (BMR) Davenport, D. A. August, 946–948. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175.
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Subject Index • Volume 79 • 2002 Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. Van Houten, J. January, 21–22. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1909: Wilhelm Ostwald. Van Houten, J. February, 146–148. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. Van Houten, J. March, 301–304. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1956: Hinshelwood and Semenov. Van Houten, J. April, 414–416. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1967: Eigen, Norrish, and Porter. Van Houten, J. May, 548–550. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. Van Houten, J. June, 667–669. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. Van Houten, J. July, 788–790. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. Van Houten, J. August, 926–933. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. Van Houten, J. September, 1055– 1059. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul Crutzen, Sherwood Rowland, and Mario Molina. Van Houten, J. October, 1182–1188. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. Van Houten, J. November, 1297–1306. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. Guzmán-Casado, M.; Parody-Morreale, A. March, 327–331. Oxygen (by Carl Djerassi and Roald Hoffmann). (BMR) Kovac, J. D. April, 436. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447. Profiles in Science: The Linus Pauling Papers (by National Library of Medicine). (BMR) Davenport, D. A. August, 946–948. The Research Notebooks of Linus Pauling (Digitized and released online by Oregon State University Special Collections.) (BMR) Davenport, D. A. August, 946– 948. Summer Reading. Kovac, J. D.; Pagni, R. M.; Harris, H. H.; Coppola, B. P. June, 648–659. Teaching and Learning Chemistry. (FPI) Rice, R. E. November, 1292–1294. Uncle Tungsten: Memories of a Chemical Boyhood (by Oliver Sacks). (BMR) Schwartz, A. T. March, 312.
Hormones Biochemistry of Signal Transduction and Regulation, 2nd Edition (by Gerhard Krauss). (BMR) Minderhout, V. November, 1321–1322. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313.
Humor/Puzzles/Games After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chemical Adventures of Sherlock Holmes: The Case of Three. Rybolt, T. R.; Waddell, T. G. April, 448–453. Chemical Name Game. (JCE WebWare) Hanson, R. M. November, 1380.
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Chemistry Game Shows. Campbell, S.; Muzyka, J. April, 458. Cover Puzzle: What’s Wrong in This Lab? April, 432. DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Epoxide Reactions. (RSA) Bertolini, T. July, 828. Letter Matrix Puzzle on the Symbols of Elements. Kelkar, V. D. April, 456–457. Quote Boxes for Chemistry Teachers. Olney, D. April, 447. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571. Using Proverbs in Chemistry. Ibanez, J. G. April, 454– 455.
Inductively Coupled Plasma ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. Page, M. A.; Smith, B. W.; Williams, K. R. March, 364–365.
Industrial Chemistry Analytical Chemistry in a GMP Environment: A Practical Guide (edited by James M. Miller and Jonathan B. Crowther). (BMR) Harvey, D. T. December, 1419. Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Chemistry, Society, and Environment. A New History of the British Chemical Industry (edited by Colin A. Russell). (BMR) Stanitski, C. May, 563–564. Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Everybody Wins! 2nd Edition (by Gordon Cain). (BMR) Caswell, M. May, 561. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797. Midgley—A Two-Time Environmental Loser. (Letter) Kauffman, G. B. May, 559. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726.
Inorganic Chemistry 129Xe
NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. Pietraß, T. April, 492–493. Applications of Inorganic Mass Spectrometry (by John R. de Laeter). (BMR) Boggess, B. October, 1206– 1207. Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Copper(III) Dithiocarbamates. An Undergraduate Experimental Project with Unexpected Challenges. Victoriano, L. I. October, 1252–1253. Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. Rodríguez, E.; Vicente, M. A. April, 486–488. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70–73. Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Evergreen: The Tetrahedral Bond Angle. ten Hoor, M. J. August, 956–957. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497.
From Coello to Inorganic Chemistry: A Lifetime of Reactions (Profiles in Inorganic Chemistry) (by Fred Basolo). (BMR) Crumbliss, A. L. October, 1206. Holleman-Wiberg’s Inorganic Chemistry (edited by Nils Wiberg). (BMR) Jensen, W. B. August, 944–946. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499. Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. Karol, P. J. January, 60–63. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. April, 489–491. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
Inorganic Synthesis Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Copper(III) Dithiocarbamates. An Undergraduate Experimental Project with Unexpected Challenges. Victoriano, L. I. October, 1252–1253. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. September, 1094– 1100. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced
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/Journal/Search/index.html Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357. Transition Metal Carbonyl Cluster Chemistry (by Paul J. Dyson and J. Scott McIndoe). (BMR) Doerrer, L. H. June, 677–678.
Inquiry-Based/Discovery Method Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. FLASH Consortium. (2YC3) Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. May, 544–547. Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. Inquiry Methods in Chemistry. (EHST) Mason, D. S. March, 281. Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. July, 837–844. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822– 823. The Science Teacher: Summer 2002. (ROJSciTea) Long, S. August, 924–925. The Science Teacher: Winter 2002. (ROJSciTea) Long, S. February, 142–144. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Teacher Perceptions in the Selection of Experiments. Montes, L. D.; Rockley, M. G. February, 244–247. Teaching as Research. (Editorial) Moore, J. W. May, 535. What’s Wrong with Cookbooks? (Commentary) Ault, A. October, 1177.
Instrumental Methods Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Colored Bands: History of Chromatography. (FPI) Williams, K. R. August, 922–923. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.;
Volume 79 • 2002 • Subject Index Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. September, 1114–1116. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. Integrating HPLC and Electrochemistry: A LabVIEWBased Pulsed Amperometric Detection System. Jensen, M. B. March, 345–348. Introduction to NMR Concepts. (MCAD) Van Bramer, S. E. April, 528. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. Blitz, J. P.; Klarup, D. G. November, 1358–1360. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502.
Interdisciplinary/Multidisciplinary Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821. The Chemistry–Biology Connection. (Editorial) Moore, J. W. November, 1287. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. Seal, B. C.; Wynne, D. H.; MacDonald, G. February, 239–243. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666.
Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. July, 837–844. Interdisciplinary Research: A Student’s Perspective. (Commentary) Brown, E. N. January, 13–15. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) Koether, M. C.; McGarey, D.; Patterson, M.; Williams, D. J. August, 934–935. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256. Transitions and Interfaces. (EHST) Mason, D. S. November, 1289.
Intermolecular Forces Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988.
Internet/Web-Based Materials Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Chemical Name Game. (JCE WebWare) Hanson, R. M. November, 1380. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071. Featured Molecule of the Month: August 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1024. Featured Molecule of the Month: December 2002— Nitric Oxide-Releasing Compounds. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1470. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Featured Molecule of the Month: November 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1384. Featured Molecule of the Month: October 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. October, 1246. Featured Molecule of the Month: September 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. September, 1152. Getting Connected Online. (EHST) Mason, D. S. May, 537. Hückel Determinant Solver. (JCE WebWare) Hanson, R. M. November, 1379. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Linus Pauling: Scientist and Peacemaker. A Centenary Volume (edited by Clifford Mead and Thomas Hager). (BMR) Davenport, D. A. August, 946–948. Mechanism-Based Kinetics Simulator. (JCE WebWare) Hanson, R. M. November, 1379. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. News from Online: WWW Sites for Biochemistry Teachers. (ROJOnline) Hicks, B. W. May, 536–539.
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Subject Index • Volume 79 • 2002 Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Profiles in Science: The Linus Pauling Papers (by National Library of Medicine). (BMR) Davenport, D. A. August, 946–948. The Research Notebooks of Linus Pauling (Digitized and released online by Oregon State University Special Collections.) (BMR) Davenport, D. A. August, 946– 948. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) Smith, P. M. July, 807– 808. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1379. What’s in a Name? (JCE WebWare) Hanson, R. M. November, 1380. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Introductory/High School Chemistry Acetaldehyde. (CLIP) Young, J. A. June, 672. Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. ACS National Meeting: Boston, August 18–22 2002. Undergraduate Program and High School Program. August, 904–905. ACS National Meeting: Orlando, April 7–11, 2002. High School Program. March, 292. Advanced High School Chemistry. (Editorial) Moore, J. W. August, 903. After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850. Anthracene. (CLIP) Young, J. A. May, 553. Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Arsenic(III) Oxide. (CLIP) Young, J. A. January, 23. Articulations: A Case for “Physics First”. (EHST) Mason, D. S. December, 1393. Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Barium Chloride Dihydrate. (CLIP) Young, J. A. May, 554. Brushing Up on Chemistry. (JCE Classroom Activity) Trantow, A. October, 1168A–1168B. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chem Gems & Joules. (EHST) Mason, D. S. September, 1033. Chemical Adventures of Sherlock Holmes: The Case of Three. Rybolt, T. R.; Waddell, T. G. April, 448–453. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Chemistry, 2nd Edition (by Rob Lewis and Wynne Evans). (BMR) Conover, W. April, 437–438. Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Chemistry Game Shows. Campbell, S.; Muzyka, J. April, 458. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Commencement. (EHST) Mason, D. S. January, 8. Conant Award Interview: An Interview with Theresa Corley, 2002 Award Winner. JCE Editorial Staff. September, 1046–1052. Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. Holder, D. A.; Johnson, B. G.; Karol, P. J. April, 465–467. Copper(II) Sulfate Pentahydrate. (CLIP) Young, J. A.
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JCE Online Index: http://JChemEd.chem.wisc.edu
February, 158. Correction to Chemical Laboratory Information Profile: Anthracene (re J. Chem. Educ. 2002, 79, 553). (Correction) Young, J. A. September, 1071. Cover Puzzle: What’s Wrong in This Lab? April, 432. Cross-Connections of Chemistry. (EHST) Mason, D. S. February, 143. Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472. DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. Sanger, M. J.; Geer, K. August, 994–996. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Disciplina, Paedisium, Civitatis: Attend a Summer Meeting and Open Up Your World. (EHST) Mason, D. S. June, 649. Disorder—A Cracked Crutch for Supporting Entropy Discussions. Lambert, F. L. February, 187–192. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. Entropy Is Simple, Qualitatively. Lambert, F. L. October, 1241–1246. Ethylenediaminetetraacetic Acid. (CLIP) Young, J. A. April, 426. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Fingerprinting: Commercial Products and Elements. (AA) Allen, D.; Oliver-Hoyo, M. T. April, 459–461. FLASH Consortium. (2YC3) Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. May, 544–547. For Mole Problems, Call Avogadro: 602-1023. Uthe, R. E. October, 1213. Formic Acid (85–95%). (CLIP) Young, J. A. February, 157. Frontier Chemistry. (EHST) Jacobsen, E. K. July, 777. General Chemistry Collection for Students, 6th Edition. (JCE Software) May, 637–638. Getting Connected Online. (EHST) Mason, D. S. May, 537. Getting Hooked on Chemistry. (EHST) Mason, D. S. April, 409. Glass Wool. (CLIP) Young, J. A. June, 673. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Inquiry Methods in Chemistry. (EHST) Mason, D. S. March, 281. Intellectual Couch Potato? (EHST) Mason, D. S. August, 905. Interactive Graphical Approach to Temperature Conversions. Mitschele, J. October, 1235–1236. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. Inventory for Alternate Conceptions among First-Semester General Chemistry Students. (CER) Mulford, D. R.; Robinson, W. R. June, 739–744. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) Doerrer, L. H. July, 806–807. Is Salt Melting When It Dissolves in Water? Goodwin, A. March, 393–396. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. Letter Matrix Puzzle on the Symbols of Elements. Kelkar, V. D. April, 456–457. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221.
Low-Cost and Timesaving Microscale Heater. (ML) Joling, E.; Goedhart, M. J.; van den Berg, B.; van der Spek, T. M. September, 1109–1110. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Mercury(I) Chloride. (CLIP) Young, J. A. July, 799. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) Geiger, P. July, 805–806. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. New Crop of Opportunities. (EHST) Jacobsen, E. K. October, 1161. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. Nitric Acid (approx. 70%). (CLIP) Young, J. A. December, 1413. Oleic Acid. (CLIP) Young, J. A. January, 24. Osmium Tetroxide. (CLIP) Young, J. A. September, 1064. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. August, 976–979. Potassium Chlorate. (CLIP) Young, J. A. August, 936. Potassium Chromate. (CLIP) Young, J. A. September, 1065. Potassium Perchlorate. (CLIP) Young, J. A. August, 937. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822– 823. Quote Boxes for Chemistry Teachers. Olney, D. April, 447. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696. Rate Law Determination of Everyday Processes. Sanger, M. J.; Wiley, R. A.; Richter, E. W.; Phelps, A. J. August, 989–991. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. The Science Teacher: Summer 2002. (ROJSciTea) Long, S. August, 924–925. The Science Teacher: Winter 2002. (ROJSciTea) Long, S. February, 142–144. Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. Lieu, V. T.; Kalbus, G. E. April, 473. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Sodium Acetate. (CLIP) Young, J. A. November, 1314. Sodium Carbonate (anhydrous). (CLIP) Young, J. A. November, 1315.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Sodium. (CLIP) Young, J. A. April, 425. Sodium Fluoride. (CLIP) Young, J. A. October, 1197. Sodium Hypochlorite Solution. (CLIP) Young, J. A. October, 1196. Sodium Nitrate. (CLIP) Young, J. A. December, 1414. Sodium Thiosulfate Pentahydrate. (CLIP) Young, J. A. July, 798. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Spreading the Word. (EHST) Jacobsen, E. K. January, 9. Sulfur. (CLIP) Young, J. A. September, 1063. Teaching and Learning Chemistry. (FPI) Rice, R. E. November, 1292–1294. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571. Through the Looking Glass. (JCE Classroom Activity) JCE Editorial Staff. November, 1360A–1360B. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Transitions and Interfaces. (EHST) Mason, D. S. November, 1289. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895. Using Proverbs in Chemistry. Ibanez, J. G. April, 454– 455. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Iodine Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Nitrogen Triiodide. (Letter) Tudela, D. May, 558. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43.
IR Spectroscopy Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632. Organic Spectroscopy—A Capstone Experience. Fleischer, J. M. October, 1247–1248. The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) Clark, R. W. February, 154. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205.
Volume 79 • 2002 • Subject Index Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355–1357. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. February, 221– 224. Using Infrared Spectroscopy to Investigate Protein Structure. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. March, 369–371. Using the Asymmetric Stretch Band of Atmospheric CO2 to Obtain the C=O Bond Length. Ogren, P. J. January, 117–119.
Iron ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. Page, M. A.; Smith, B. W.; Williams, K. R. March, 364–365. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) Doerrer, L. H. July, 806–807. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447.
Isotopes Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. Van Houten, J. March, 301–304.
JCE Classroom Activity Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Brushing Up on Chemistry. (JCE Classroom Activity) Trantow, A. October, 1168A–1168B. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. Through the Looking Glass. (JCE Classroom Activity) JCE Editorial Staff. November, 1360A–1360B. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B.
JCE Software Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. General Chemistry Collection for Students, 6th Edition. (JCE Software) May, 637–638. Journal of Chemical Education on CD-ROM, 2001. (JCE Software) January, 136. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487–1488. Prospectus 2002. (JCE Software) Holmes, J. L.; Gettys, N. S. February, 271–272. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639.
JCE WebWare Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486.
Chemical Name Game. (JCE WebWare) Hanson, R. M. November, 1380. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. Featured Molecule of the Month: August 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1024. Featured Molecule of the Month: December 2002— Nitric Oxide-Releasing Compounds. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1470. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Featured Molecule of the Month: November 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1384. Featured Molecule of the Month: October 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. October, 1246. Featured Molecule of the Month: September 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. September, 1152. Hückel Determinant Solver. (JCE WebWare) Hanson, R. M. November, 1379. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Mechanism-Based Kinetics Simulator. (JCE WebWare) Hanson, R. M. November, 1379. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) Lim, K. F. January, 135. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) Vitz, E. July, 896. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1379. What’s in a Name? (JCE WebWare) Hanson, R. M. November, 1380. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Journal Policy Commencement. (EHST) Mason, D. S. January, 8. JCE Workshops at 17 BCCE. May, 547. Journal of Chemical Education on CD-ROM, 2001. (JCE Software) January, 136. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. News & Announcements. January, 8–9, 25–28 ; February, 159–160; March, 309; April, 427–428; May, 555–557; June, 675–676; July, 801–802; August, 939–940; September, 1067–1069; October, 1199– 1201; November, 1317–1319; December, 1417– 1418. Prospectus 2002. (JCE Software) Holmes, J. L.; Gettys, N. S. February, 271–272. Resolving to Contribute. (Editorial) Moore, J. W. February, 141. Should All Information Be Free? (Editorial) Moore, J. W. March, 279. Spreading the Word. (EHST) Jacobsen, E. K. January, 9. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Kinetics Application of the Concept of Extent of Reaction. Croce, A. E. April, 506–509. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chemical Kinetics and Catalysis (by Richard I. Masel). (BMR) Pagni, R. M. March, 313. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135.
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Subject Index • Volume 79 • 2002 Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Mechanism-Based Kinetics Simulator. (JCE WebWare) Hanson, R. M. November, 1379. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Rate Law Determination of Everyday Processes. Sanger, M. J.; Wiley, R. A.; Richter, E. W.; Phelps, A. J. August, 989–991. Saving a Drug Poisoning Victim: A Kinetics Simulation. Selco, J. I.; Beery, J. May, 578–582. Understanding Biochemical Dissociation Constants: A Temporal Perspective. Jakubowski, H. V. August, 968– 971. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ault, A. March, 311. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ochs, R. S. March, 311. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. Cortés-Figueroa, J. E.; Moore, D. A. December, 1462–1464.
Krypton Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587.
Laboratory Computing/Interfacing Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Copper(II) Sulfate Pentahydrate. (CLIP) Young, J. A. February, 158. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78– 80. Using the Asymmetric Stretch Band of Atmospheric CO2 to Obtain the C=O Bond Length. Ogren, P. J. January, 117–119.
Laboratory Equipment/Apparatus Acetaldehyde. (CLIP) Young, J. A. June, 672. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Anthracene. (CLIP) Young, J. A. May, 553. Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Arsenic(III) Oxide. (CLIP) Young, J. A. January, 23. Barium Chloride Dihydrate. (CLIP) Young, J. A. May, 554. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Correction to Chemical Laboratory Information Profile: Anthracene (re J. Chem. Educ. 2002, 79, 553). (Correction) Young, J. A. September, 1071. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Ethylenediaminetetraacetic Acid. (CLIP) Young, J. A. April, 426. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. Formic Acid (85–95%). (CLIP) Young, J. A. February, 157.
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Glass Wool. (CLIP) Young, J. A. June, 673. Implementing Temporary Facilities for Organic Chemistry Laboratory. Amburgey-Peters, J. C. May, 607–610. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Laboratory Balance. (Letter) Kramer, F. A. May, 559. Low-Cost and Timesaving Microscale Heater. (ML) Joling, E.; Goedhart, M. J.; van den Berg, B.; van der Spek, T. M. September, 1109–1110. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. Payne, K. W.; Lucas, J. M.; Eisenbraun, E. J. February, 217. Mercury(I) Chloride. (CLIP) Young, J. A. July, 799. New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Nitric Acid (approx. 70%). (CLIP) Young, J. A. December, 1413. Oleic Acid. (CLIP) Young, J. A. January, 24. Osmium Tetroxide. (CLIP) Young, J. A. September, 1064. Potassium Chlorate. (CLIP) Young, J. A. August, 936. Potassium Chromate. (CLIP) Young, J. A. September, 1065. Potassium Perchlorate. (CLIP) Young, J. A. August, 937. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Roberts, J. L. Jr. August, 941. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Singh, M. M.; McGowan, C. B.; Szafran, Z. August, 941. Simple Apparatus for Gravitational Sedimentation. (CET) Hu, D.; Cui, Y.; Fang, Y. May, 623–625. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505. Sodium Acetate. (CLIP) Young, J. A. November, 1314. Sodium Carbonate (anhydrous). (CLIP) Young, J. A. November, 1315. Sodium. (CLIP) Young, J. A. April, 425. Sodium Fluoride. (CLIP) Young, J. A. October, 1197. Sodium Hypochlorite Solution. (CLIP) Young, J. A. October, 1196. Sodium Nitrate. (CLIP) Young, J. A. December, 1414. Sodium Thiosulfate Pentahydrate. (CLIP) Young, J. A. July, 798. Sulfur. (CLIP) Young, J. A. September, 1063. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Tethering Bottle Caps. Ruekberg, B. April, 499. Weigh This Way. Bonicamp, J. M. April, 476.
Laboratory Instruction 129Xe
NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. Pietraß, T. April, 492–493. NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. Danylec, B.; Iskander, M. N. August, 1000–1001. ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850. Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. 1H
Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. January, 115–116. Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) Conover, W. June, 679–680. C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Carbohydrate Analysis: Can We Control the Ripening of Bananas? Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. April, 479–480. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. Fahlman, B. D. February, 203–206. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Ault, A. September, 1070. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Sabadini, E. September, 1071. Copper(III) Dithiocarbamates. An Undergraduate Experimental Project with Unexpected Challenges. Victoriano, L. I. October, 1252–1253. Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. Rodríguez, E.; Vicente, M. A. April, 486–488. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. December, 1475– 1476. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. Sanger, M. J.; Geer, K. August, 994–996. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Elec-
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html trical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. September, 1114–1116. Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. Dunnivant, F. M.; Kettel, J. June, 715–717. Environmentally Responsive Hydrogels. Schueneman, S. M.; Chen, W. July, 860–862. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. Fisher, M. A.; Johnston, D.; Ritt, D. A. March, 374–376. Experiments in Organic Chemistry, 2nd Edition (by Richard K. Hill and J. Barbaro). (BMR) Gooch, E. E. November, 1320–1321. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. Harvey, D. T. May, 613–615. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. Fractional Distillation and GC Analysis of Hydrocarbon Mixtures. Donahue, C. J. June, 721–723. Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. Page, M. A.; Smith, B. W.; Williams, K. R. March, 364–365. Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.; Kusch, P.; Neugebauer, M. January, 98–100. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666. Implementing Temporary Facilities for Organic Chemistry Laboratory. Amburgey-Peters, J. C. May, 607– 610. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Integrating HPLC and Electrochemistry: A LabVIEWBased Pulsed Amperometric Detection System. Jensen, M. B. March, 345–348. Integration of Chemistry, Biology, and Physics: The Interdisciplinary Laboratory. Van Hecke, G. R.; Karukstis, K. K.; Haskell, R. C.; McFadden, C. S.; Wettack, F. S. July, 837–844. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. JCE Workshops at 17 BCCE. May, 547. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Magnetic Stirring with the Stirring Bar Length Exceed-
Volume 79 • 2002 • Subject Index ing the Vessel Diameter. Payne, K. W.; Lucas, J. M.; Eisenbraun, E. J. February, 217. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. May, 619–622. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. April, 484–485. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847. New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Nonlinear Fits of Standard Curves: A Simple Route to Uncertainties in Unknowns. Salter, C.; de Levie, R. February, 268–270. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L.; Roberts, J. R. March, 366–368. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Organic Spectroscopy—A Capstone Experience. Fleischer, J. M. October, 1247–1248. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114. Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. Harbron, E. J.; Barbara, P. F. February, 211–213. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Quantifying Meniscus Forces with an Electronic Balance: Direct Measurement of Liquid Surface Tension. A Physical Chemistry Experiment. Digilov, R. March, 353–355. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Quantitative Measurement of Bromoform in Swimming
Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Rare Gas Viscosities: A Learning Tool. Halpern, A. M. February, 214–216. Rate Law Determination of Everyday Processes. Sanger, M. J.; Wiley, R. A.; Richter, E. W.; Phelps, A. J. August, 989–991. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. Blitz, J. P.; Klarup, D. G. November, 1358–1360. Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. Lieu, V. T.; Kalbus, G. E. April, 473. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004. Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. Martel, D.; Sojic, N.; Kuhn, A. March, 349–352. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. April, 489–491. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. de Mattos, M. C.; Nicodem, D. E. January, 94–95. Solid-Phase Organic Synthesis and Combinatorial Chemistr y: A Laboratory Preparation of Oligopeptides. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. January, 85–86. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. Dávila, R. M.; Widener, R. K. August, 997–999. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726. Synthesis and Characterization of a Hyperbranched Copolymer. Royappa, A. T. January, 81–84. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357. Synthesis of 4-Methylumbellifer-7-yl-α- D -Mannopyranoside: An Introduction to Modern Glycosylation Reactions. Penverne, C.; Ferrières, V. November, 1353–1354. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. January, 106–110. Teacher Perceptions in the Selection of Experiments. Montes, L. D.; Rockley, M. G. February, 244–247. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344. Two Experiments Illustrating the Importance of Sampling in a Quantitative Chemical Analysis. Harvey, D. T. March, 360–363.
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Subject Index • Volume 79 • 2002 Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502. Unknown Gases: Student-Designed Experiments in the Introductory Laboratory. Hanson, J.; Hoyt, T. July, 845–846. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. February, 221– 224. Using Infrared Spectroscopy to Investigate Protein Structure. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. March, 369–371. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78– 80. Using Limiting–Excess Stoichiometry to Introduce Equilibrium Calculations: A Discrepant Event Laboratory Activity Involving Precipitation Reactions. DeMeo, S. April, 474–475. Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. Nyasulu, F.; Macklin, J.; Cusworth, W. March, 356–359. What’s Wrong with Cookbooks? (Commentary) Ault, A. October, 1177. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
Lasers/Laser Spectroscopy Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. Harbron, E. J.; Barbara, P. F. February, 211–213. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Two-Photon Ionization Spectrometry of Alkali Atoms in Flames. (ACL) Comstock, M. G.; Kerr, J. R.; Gray, J. A. April, 500–502.
Letters Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) Buntrock, R. E. April, 431–432. Career Management for Scientists and Engineers (re J. Chem. Educ. 2001, 78, 169–170). (Letter) Caswell, M. April, 432. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) Crutchfield, C. A. October, 1202. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) Young, J. A. October, 1202. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Ault, A. September, 1070. Color Changes in Indicator Solutions (re J. Chem. Educ. 2001, 78, 939–940). (Letter) Sabadini, E. September, 1071. Conversion of Serum-Alcohol Concentrations to Corresponding Blood-Alcohol Concentrations (re J. Chem. Educ. 2001, 78, 1225–127). (Letter) Labianca, D. A. July, 803. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Hawkes, S. J. February, 162–163. Easy Derivation… (re J. Chem. Educ. 2000, 77, 1183). (Letter) Roberts, J. L. Jr. February, 161–162.
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JCE Online Index: http://JChemEd.chem.wisc.edu
Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Laboratory Balance. (Letter) Kramer, F. A. May, 559. Midgley—A Two-Time Environmental Loser. (Letter) Kauffman, G. B. May, 559. Nitrogen Triiodide. (Letter) Tudela, D. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Lentini, G. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Leung, S. H. May, 559. pH of Sodium Acetate Solutions. (Letter) Schmitz, G. January, 29. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Roberts, J. L. Jr. August, 941. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Singh, M. M.; McGowan, C. B.; Szafran, Z. August, 941. Research Is to Teaching …. (Letter) Karp, S. March, 310. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ault, A. March, 311. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ochs, R. S. March, 311.
Lipids Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Liquids Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Effect of Mutual Solubility of Solvents in Multiple Liquid–Liquid Extraction. Michalowski, T. October, 1267–1268. Is Salt Melting When It Dissolves in Water? Goodwin, A. March, 393–396. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883. Quantifying Meniscus Forces with an Electronic Balance: Direct Measurement of Liquid Surface Tension. A Physical Chemistry Experiment. Digilov, R. March, 353–355. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628.
Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Luminescence How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
Magnesium Chemical Speciation: A Guide to Understand Titrimetric Analysis. Liyanage, J. A.; Janaratne, T. May, 635– 636.
Magnetic Properties Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A SmallGroup or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. Payne, K. W.; Lucas, J. M.; Eisenbraun, E. J. February, 217. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004.
Mass Spectrometry Applications of Inorganic Mass Spectrometry (by John R. de Laeter). (BMR) Boggess, B. October, 1206– 1207. Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587. Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.; Kusch, P.; Neugebauer, M. January, 98–100. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629– 632. Organic Spectroscopy—A Capstone Experience. Fleischer, J. M. October, 1247–1248. Quantitative Determination of Nicotine and Cotinine in Urine and Sputum Using a Combined SPME-GC/ MS Method. Witter, A. E.; Klinger, D. M.; Fan, X.; Lam, M.; Mathers, D. T.; Mabury, S. A. October, 1257–1260. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256.
Materials Science Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. Fahlman, B. D. February, 203–206. Dendrimers: Branching Out of Polymer Chemistry. Simanek, E. E.; Gonzalez, S. O. October, 1222–1231.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Electrolytic Recovery of Copper from Brass. A Laboratory Simulation of an Industrial Application of Electrical Energy. Osella, D.; Ravera, M.; Soave, C.; Scorza, S. March, 343–344. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797. Interdisciplinary Research: A Student’s Perspective. (Commentary) Brown, E. N. January, 13–15. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) Heinhorst, S.; Cannon, G. January, 10–12. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. April, 489–491. Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461.
Mathcad in the Chemistry Curriculum Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Illustrating the Bohr Correspondence Principle. (MCAD) Lo, G. V. November, 1377–1378. Introduction to NMR Concepts. (MCAD) Van Bramer, S. E. April, 528. Mathcad Documents and Student Learning. (MCAD) Zielinski, T. J. April, 527–528. Modeling pH in Natural Waters. (MCAD) Sielemann, M.; Andersen, N. P.; Keiding, K. April, 528. Student Access to Symbolic Mathematics Software. (MCAD) Zielinski, T. J. November, 1377. Variational Method Applied to the Harmonic Oscillator. (MCAD) Dunn, S. K. November, 1378.
Mechanisms of Reactions Application of the Concept of Extent of Reaction. Croce, A. E. April, 506–509. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Mechanism-Based Kinetics Simulator. (JCE WebWare) Hanson, R. M. November, 1379. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. April, 484–485. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. Van Houten, J. June, 667–669. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. Van Houten, J. August, 926–933. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. Vitz, E. March, 397– 400.
Volume 79 • 2002 • Subject Index Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) Tyler, D. R. November, 1372–1376.
Medicinal Chemistry Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) Geiger, P. July, 805–806. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121.
Mercury Mercury(I) Chloride. (CLIP) Young, J. A. July, 799.
Metabolism Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. Aledo, J. C.; Esteban del Valle, A. November, 1336–1339.
Metal Carbonyls Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. Transition Metal Carbonyl Cluster Chemistry (by Paul J. Dyson and J. Scott McIndoe). (BMR) Doerrer, L. H. June, 677–678.
Metals
(ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Roberts, J. L. Jr. August, 941. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Singh, M. M.; McGowan, C. B.; Szafran, Z. August, 941. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
The Microscale Laboratory Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Low-Cost and Timesaving Microscale Heater. (ML) Joling, E.; Goedhart, M. J.; van den Berg, B.; van der Spek, T. M. September, 1109–1110. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
Minorities in Chemistry
Analytical Problems Associated with the Analysis of Metals in a Simulated Hazardous Waste. Dunnivant, F. M. June, 718–720. Chemical Adventures of Sherlock Holmes: The Case of Three. Rybolt, T. R.; Waddell, T. G. April, 448–453. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70– 73. Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. Dunnivant, F. M.; Kettel, J. June, 715–717. Industrial Applications of Inorganic Chemistry: A Junior–Senior-Level Interdisciplinary Course. (ACL) Vallarino, L. M.; Wnek, G. E. July, 832–836. Ligand Field Theory and Its Applications (by Brian N. Figgis and Michael A. Hitchman). (BMR) Turner, J. F. September, 1072–1073. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447.
Colorful Azulene and Its Equally Colorful Derivatives. Liu, R. S. February, 183–185. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Hückel Determinant Solver. (JCE WebWare) Hanson, R. M. November, 1379. Hydrogen Molecular Ion Revisited. Grivet, J. January, 127–132. Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. Nyasulu, F.; Macklin, J.; Cusworth, W. March, 356–359.
Microscale
Molecular Modeling/Dynamics
Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Low-Cost and Timesaving Microscale Heater. (ML) Joling, E.; Goedhart, M. J.; van den Berg, B.; van der Spek, T. M. September, 1109–1110. Microscale Chemistry in a Plastic Petri Dish: Preparation and Chemical Properties of Chlorine Gas. (ML) Choi, M. M. August, 992–993. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Microscale pH Titrations Using an Automatic Pipet.
Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A Small-
Making the Transition from Two-Year to Four-Year Colleges: Successful Minority Recruitment/Retention Strategies. (2YC 3) Bhat, C.; Gaglione, O. G. July, 795.
MO Theory
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Subject Index • Volume 79 • 2002
JCE Online Index: http://JChemEd.chem.wisc.edu
Group or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Featured Molecule of the Month: August 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1024. Featured Molecule of the Month: December 2002— Nitric Oxide-Releasing Compounds. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1470. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Featured Molecule of the Month: November 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1384. Featured Molecule of the Month: October 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. October, 1246. Featured Molecule of the Month: September 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. September, 1152. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13 C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Hands-On Introduction to Molecular Dynamics. Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R.; Schauble, C. J. May, 601–606. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. Dávila, R. M.; Widener, R. K. August, 997–999. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291.
Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. Dávila, R. M.; Widener, R. K. August, 997–999. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. May, 551–552. Teaching Molecular Applications of the Particle-in-aRing Model Using Azulene. Castanho, M. A. September, 1092. Tetrahedral Geometry and the Dipole Moment of Molecules. Mendiara, S. N.; Perissinotti, L. J. January, 64– 66. Understanding and Interpreting Molecular Electron Density Distributions. Matta, C. F.; Gillespie, R. J. September, 1141–1152. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461. Using the Asymmetric Stretch Band of Atmospheric CO2 to Obtain the C=O Bond Length. Ogren, P. J. January, 117–119. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
Molecular Properties/Structure
Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251.
Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Featured Molecule of the Month: August 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1024. Featured Molecule of the Month: December 2002— Nitric Oxide-Releasing Compounds. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1470. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Featured Molecule of the Month: November 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1384. Featured Molecule of the Month: October 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. October, 1246. Featured Molecule of the Month: September 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. September, 1152. Generating Closed Shapes from Regular Tilings. Boo, W. O.; Mattern, D. L. August, 1017–1023. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An IntermediateLevel Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. Simple Experiment for the Determination of Molecular Weights of Gases Lighter Than Air. Lieu, V. T.; Kalbus, G. E. April, 473. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443.
1522
Molecular Recognition Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126.
Molybdenum
Multimedia Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) Conover, W. June, 679–680. Chemistry CD (by B. C. Sanctuary). (BMR) Steehler, J. K. February, 166. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896. Chemistry Game Shows. Campbell, S.; Muzyka, J. April, 458. Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Illustrating the Bohr Correspondence Principle. (MCAD) Lo, G. V. November, 1377–1378. Journal of Chemical Education on CD-ROM, 2001. (JCE Software) January, 136. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Michael Reaction. Poon, T.; Mundy, B. P.; Shattuck, T. W. February, 264–267. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488. Prospectus 2002. (JCE Software) Holmes, J. L.; Gettys, N. S. February, 271–272. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205. Thinkwell’s Chemistry (by Dean Harmon, Gordon Yee, and Tarek Sammakia). (BMR) Smith, P. M. July, 807– 808.
Variational Method Applied to the Harmonic Oscillator. (MCAD) Dunn, S. K. November, 1378. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. Where Does WebWare Stand Today? (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1023–1024.
Nanotechnology Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. Fahlman, B. D. February, 203–206. Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. “Real-Time” Chemistry and Chemical Education. (Commentary) Ellis, A. B. September, 1034–1035. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. September, 1094– 1100. Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104.
National Chemistry Week 2002: Chemistry Keeps Us Clean Brushing Up on Chemistry. (JCE Classroom Activity) Trantow, A. October, 1168A–1168B. Chemists Clean Up: A History and Exploration of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) Williams, K. R. October, 1168–1169. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181.
Natural Products Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Efficient Separation of Yolk from White in Boiled Chicken Eggs Leads to Convenient Extraction of Biologically Viable Phosphatidylcholine Lipids. Stanish, I.; Zabetakis, D.; Singh, A. April, 481–483. Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.; Kusch, P.; Neugebauer, M. January, 98–100. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. August, 976–979. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. de Mattos, M. C.; Nicodem, D. E. January, 94–95. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Synthesis of 4-Methylumbellifer-7-yl-α- D -Mannopyranoside: An Introduction to Modern Glycosylation Reactions. Penverne, C.; Ferrières, V. November, 1353–1354.
NMR Spectrometry 129Xe
NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. Pietraß, T. April, 492–493. NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. Danylec, B.; Iskander, M. N. August, 1000–1001. ABCs of FT-NMR (by John D. Roberts). (BMR) Shibata, J. H. November, 1324–1325. ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A SmallGroup or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Experiments with Tris(ethylenediamine)cobalt(III) Compounds: 59Co NMR and the Resolution of Enantiomeric [Co(en)3]3+ Ion and Analysis by Formation of Diastereomeric Ion Pairs. Borer, L. L.; Russell, J. G.; Settlage, R. E.; Bryant, R. G. April, 494–497. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13 C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Introduction to NMR Concepts. (MCAD) Van Bramer, S. E. April, 528. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition (by J. K. Akitt and B. E. Mann). (BMR) Mehta, M. June, 677. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Organic Spectroscopy—A Capstone Experience. Fleischer, J. M. October, 1247–1248. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205. 1H
Volume 79 • 2002 • Subject Index Structure and Nuclear Magnetic Resonance. An Experiment for the General Chemistry Laboratory. Dávila, R. M.; Widener, R. K. August, 997–999. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. January, 106–110. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. February, 221– 224.
Nomenclature/Units/Symbols Chemical Name Game. (JCE WebWare) Hanson, R. M. November, 1380. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Interactive Graphical Approach to Temperature Conversions. Mitschele, J. October, 1235–1236. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Lentini, G. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Leung, S. H. May, 559. What’s in a Name? (JCE WebWare) Hanson, R. M. November, 1380.
Nonmajor Courses Chemistry and Warfare: A General Studies Course. (CCD) Gooch, E. E. July, 820–821. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. For Mole Problems, Call Avogadro: 602-1023. Uthe, R. E. October, 1213. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman). (BMR) Harris, H. H. January, 35.
NSF Highlights Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Interdisciplinary Undergraduate Education: Environmental Studies. (NSF) Koether, M. C.; McGarey, D.; Patterson, M.; Williams, D. J. August, 934–935. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF) Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. May, 551–552.
Nuclear/Radiochemistry Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. Karol, P. J. January, 60–63. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition (by Karl Heinrich Lieser). (BMR) Keedy, C. R. January, 35–36. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696. A Serious but Not Ponderous Book about Nuclear Energy (by Walter Scheider. (BMR) Geiger, P. March, 314–315.
Nucleic Acids/DNA/RNA Experimental Design and Polyelectrolyte Effects on Ligand Binding to Nucleic Acids. An Undergraduate Biochemistry Lab. Fisher, M. A.; Johnston, D.; Ritt, D. A. March, 374–376.
Numerical Methods Hands-On Introduction to Molecular Dynamics. Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R.; Schauble, C. J. May, 601–606. Hydrogen Molecular Ion Revisited. Grivet, J. January, 127–132. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135.
Nutrition Carbohydrate Analysis: Can We Control the Ripening of Bananas? Deal, S. T.; Farmer, C. E.; Cerpovicz, P. F. April, 479–480.
Organic Chemistry 1H
NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. Danylec, B.; Iskander, M. N. August, 1000–1001. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives (by Henning Hopf ). (BMR) Magid, R. January, 34. Colorful Azulene and Its Equally Colorful Derivatives. Liu, R. S. February, 183–185. Dendrimers: Branching Out of Polymer Chemistry. Simanek, E. E.; Gonzalez, S. O. October, 1222–1231. Determining Oxidation–Reduction on a Simple Number Line. Cox, A. L.; Cox, J. R. August, 965–967. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A SmallGroup or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Epoxide Reactions. (RSA) Bertolini, T. July, 828. Evergreen: The Tetrahedral Bond Angle. ten Hoor, M. J. August, 956–957. Experiments in Organic Chemistry, 2nd Edition (by Richard K. Hill and J. Barbaro). (BMR) Gooch, E. E. November, 1320–1321.
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Subject Index • Volume 79 • 2002 Fractional Distillation and GC Analysis of Hydrocarbon Mixtures. Donahue, C. J. June, 721–723. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. April, 520–523. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13 C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Functional Group Chemistry (by James R. Hanson). (BMR) Karty, J. M. June, 678–679. Heterocyclic Chemistry (by Malcolm Sainsbury). (BMR) Pagni, R. M. September, 1073–1074. Hückel Determinant Solver. (JCE WebWare) Hanson, R. M. November, 1379. Impact of Incorporation of High Field FT-NMR Spectroscopy into the Undergraduate Chemistry Curriculum. (NSF) Ball, D. B.; Miller, R. M. June, 665–666. Implementing Temporary Facilities for Organic Chemistry Laboratory. Amburgey-Peters, J. C. May, 607– 610. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Introduction to NMR Concepts. (MCAD) Van Bramer, S. E. April, 528. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. April, 484–485. Michael Reaction. Poon, T.; Mundy, B. P.; Shattuck, T. W. February, 264–267. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. New Approach to Understanding Oxidation–Reduction of Compounds in Organic Chemistry. Menzek, A. June, 700–702. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Organic Spectroscopy—A Capstone Experience. Fleischer, J. M. October, 1247–1248. Organic Structures from Spectra (by L. D. Field, S. Sternhell, and J. R. Kalman). (BMR) Rosan, A. M. November, 1323–1324. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734.
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JCE Online Index: http://JChemEd.chem.wisc.edu
Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. de Mattos, M. C.; Nicodem, D. E. January, 94–95. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. January, 85–86. Spectroscopy for Schools and Colleges [CD-ROM] (by the Royal Society of Chemistry and GlaxoWellcome). (BMR) Eberlein, T. H. October, 1204–1205. Stereochemistry (by David G. Morris). (BMR) Crouch, R. D. February, 167. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726. Synthesis of 4-Methylumbellifer-7-yl-α- D -Mannopyranoside: An Introduction to Modern Glycosylation Reactions. Penverne, C.; Ferrières, V. November, 1353–1354. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. January, 106–110. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Teaching the Sophomore Organic Course without a Lecture. Are You Crazy? (CER) Bradley, A. Z.; Ulrich, S. M.; Jones, M. Jr.; Jones, S. M. April, 514–519. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. February, 221– 224. Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) Tyler, D. R. November, 1372–1376. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Organic Synthesis Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Cholesterol Biosynthesis: Lanosterol to Cholesterol. (CIB) Risley, J. M. March, 377–384. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives (by Henning Hopf ). (BMR) Magid, R. January, 34. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Dendrimers: Branching Out of Polymer Chemistry. Simanek, E. E.; Gonzalez, S. O. October, 1222–1231. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Environmentally Responsive Hydrogels. Schueneman, S. M.; Chen, W. July, 860–862. Epoxide Reactions. (RSA) Bertolini, T. July, 828.
Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Introduction to Synthetic Polymers, 2nd Edition (by Ian M. Campbell). (BMR) Waldow, D. May, 561–562. Mechanism of Aqueous Hydrolysis of Nitro Derivatives of Phenyl Phenylmethanesulfonate. An Organic Laboratory Experiment. Mulder, S. D.; Hoogenboom, B. E.; Splittgerber, A. G. February, 218–220. Michael Reaction. Poon, T.; Mundy, B. P.; Shattuck, T. W. February, 264–267. Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. Oligosaccharides: Their Synthesis and Biological Roles (by Helen Osborn and Tariq Kahn). (BMR) Shelton, M. C. May, 562. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361. Soap from Nutmeg: An Integrated Introductory Organic Chemistry Laboratory Experiment. de Mattos, M. C.; Nicodem, D. E. January, 94–95. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. January, 85–86. Synthesis and Characterization of a Gasoline Oxygenate, Ethyl tert-Butyl Ether. Donahue, C. J.; D’Amico, T.; Exline, J. A. June, 724–726. Synthesis and Characterization of a Hyperbranched Copolymer. Royappa, A. T. January, 81–84. Synthesis of 4-Methylumbellifer-7-yl-α- D -Mannopyranoside: An Introduction to Modern Glycosylation Reactions. Penverne, C.; Ferrières, V. November, 1353–1354. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. Synthesis of Quinolines and Their Characterization by 2-D NMR Spectroscopy. Seaton, P. J.; Williamson, R. T.; Mitra, A.; Assarpour, A. January, 106–110. Triboluminescent Crystals from the Microwave Oven. Baldwin, B. W.; Wilhite, D. M. November, 1344. Use of 15N Label in Organic Synthesis and Spectroscopy. Part I: Preparation of 15N-Labeled tert-Butylamine. Talaty, E. R.; Boese, C. A.; Adewale, S. M.; Ismail, M. S.; Provenzano, F. A.; Utz, M. J. February, 221– 224. Wittig Reaction: The Synthesis of trans-9-(2Phenylethenyl)anthracene Revisited. (ML) Jaworek, C.; Iacobucci, S. January, 111.
Organometallics Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499. Microwave-Assisted Reflux in Organometallic Chemistry: Synthesis and Structural Determination of Molybdenum Carbonyl Complexes. An Intermediate-Level Organometallic–Inorganic Experiment. Ardon, M.; Hayes, P. D.; Hogarth, G. October, 1249–1251.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html
Volume 79 • 2002 • Subject Index
Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114. Teaching Bonding in Organometallic Chemistry Using Computational Chemistry. van Haaren, R. J.; Reek, J. N.; Oevering, H.; Coussens, B. B.; van Strijdonck, G. P.; Kamer, P. C.; van Leeuwen, P. W. May, 588– 591. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
Palladium
Osmium Osmium Tetroxide. (CLIP) Young, J. A. September, 1064.
Microscale Synthesis of a Diphenylisoxazoline by a 1,3Dipolar Cycloaddition. (ML) Martin, W. B.; Kateley, L. J.; Wiser, D. C.; Brummond, C. A. February, 225– 227.
Outreach
Periodicity/Periodic Table
ACS National Meeting: Boston, August 18–22 2002. Undergraduate Program and High School Program. August, 904–905. ACS Presidential Election: Statement on Education—A Core Commitment of Chemists and the ACS. Casey, C. P. September, 1036. ACS Presidential Election: Statement on Education— Education at the Core. Kwiram, A. L. September, 1037. Chem Gems & Joules. (EHST) Mason, D. S. September, 1033. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Combining Active Learning with Service Learning: A Student-Driven Demonstration Project. HatcherSkeers, M.; Aragon, E. April, 462–464. Deaf Students, Teachers, and Interpreters in the Chemistry Lab. Seal, B. C.; Wynne, D. H.; MacDonald, G. February, 239–243. Educating Teachers. (Editorial) Moore, J. W. June, 647. Exams Institute Moves. (ACS) Jones, D. E. June, 671. Executive Committee Report, April 2002. (ACS) Towns, M. H.; Sarquis, J. L.; Sarquis, A. M. July, 793–794. Executive Committee Report, September 2002. (ACS) Sarquis, J. L.; Hoffman, M. Z.; Cooper, M. M. December, 1410–1412. Getting Hooked on Chemistry. (EHST) Mason, D. S. April, 409. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. MACTLAC–Supporting Liberal Arts Chemistry Faculty. Muyskens, M. A. June, 670–671. New Crop of Opportunities. (EHST) Jacobsen, E. K. October, 1161. News & Announcements. January, 8–9, 25–28 ; February, 159–160; March, 309; April, 427–428; May, 555–557; June, 675–676; July, 801–802; August, 939–940; September, 1067–1069; October, 1199– 1201; November, 1317–1319; December, 1417– 1418. Research/Teaching Partnerships. (Editorial) Moore, J. W. September, 1031. Resolving to Contribute. (Editorial) Moore, J. W. February, 141. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) Muzzi, C. July, 791–792. Teaching as Research. (Editorial) Moore, J. W. May, 535. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) Peters, D. G. July, 783–786. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Foundations of Chemistry: Special Issue on the Periodic System (edited by Eric R. Scerri). (BMR) Bernal, P. J. December, 1420. Letter Matrix Puzzle on the Symbols of Elements. Kelkar, V. D. April, 456–457. Mendeleev–Seaborg Periodic Table: Through Z = 1138 and Beyond. Karol, P. J. January, 60–63. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487–1488.
Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Organometallic Mediated Organic Synthesis: A Reaction Sequence for an Advanced Integrated Laboratory Course. Ball, D. B.; Wilson, R. January, 112–114.
Pericyclic Reactions
Phase Transitions/Diagrams Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Phosphorus Fire Making, Part 2. (FPI) Williams, K. R. May, 540– 542. Keto–Enol Tautomers in a Carbonyl Phosphonium Salt. Berry, D. E.; Patenaude, G. W. April, 498–499.
Photochemistry 1H
NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. Danylec, B.; Iskander, M. N. August, 1000–1001. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361.
Overhead Projector Demonstrations
Physical Chemistry
Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186.
129Xe
Oxygen Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981.
NMR of Zeolite NaY in the Inorganic Chemistry Laboratory. Pietraß, T. April, 492–493. Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Application of the Concept of Extent of Reaction. Croce, A. E. April, 506–509. Application of the WKB Approximation in the Solution of the Schrödinger Equation. Gasyna, Z. L.; Light, J. C. January, 133–134.
C-SNARF-1 as a Fluorescent Probe for pH Measurements in Living Cells: Two-Wavelength-Ratio Method versus Whole-Spectral-Resolution Method. Ribou, A.; Vigo, J.; Salmon, J. December, 1471–1474. Chemical Sciences in the 20th Century: Bridging Boundaries (edited by Carsten Reinhardt). (BMR) Bernal, P. J. April, 433. Chemical Vapor Deposition of Carbon Nanotubes. An Experiment in Materials Chemistry. Fahlman, B. D. February, 203–206. Chemically Relevant Model for Teaching the Second Law of Thermodynamics. Williamson, B. E.; Morikawa, T. March, 339–342. Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Determination of a Diffusion Coefficient by Capillary Electrophoresis. An Experiment for the Physical and Biophysical Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; German, I.; Russell, T. December, 1475– 1476. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Disorder—A Cracked Crutch for Supporting Entropy Discussions. Lambert, F. L. February, 187–192. Early Automated Testing: The 5-0-2. (FPI) Williams, K. R. January, 16–17. Effect of Mutual Solubility of Solvents in Multiple Liquid–Liquid Extraction. Michalowski, T. October, 1267–1268. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Entropy Is Simple, Qualitatively. Lambert, F. L. October, 1241–1246. Environmentally Responsive Hydrogels. Schueneman, S. M.; Chen, W. July, 860–862. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. First Law of Thermodynamics; Irreversible and Reversible Processes. Craig, N. C.; Gislason, E. A. February, 193–200. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. H Is for Enthalpy, Thanks to Heike Kamerlingh Onnes and Alfred W. Porter. Howard, I. K. June, 697–698. Hands-On Introduction to Molecular Dynamics. Lamberti, V. E.; Fosdick, L. D.; Jessup, E. R.; Schauble, C. J. May, 601–606. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. ICP in the Physical Chemistry Laboratory: Determination of Plasma Temperature. Page, M. A.; Smith, B. W.; Williams, K. R. March, 364–365. Illustrating the Bohr Correspondence Principle. (MCAD) Lo, G. V. November, 1377–1378. Influence of Modern NMR Spectroscopy on Undergraduate Organic, Inorganic, and Physical Chemistry at Florida State University. (NSF) Vaughn, J. B. March, 306–307. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) Pounds, A. April, 434–435. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Lead–Acid Battery: Its Voltage in Theory and Practice. Treptow, R. S. March, 334–338.
JChemEd.chem.wisc.edu • Vol. 79 No. 12 December 2002 • Journal of Chemical Education
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Subject Index • Volume 79 • 2002 Mathcad Documents and Student Learning. (MCAD) Zielinski, T. J. April, 527–528. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. May, 619–622. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. Van Houten, J. January, 21–22. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1909: Wilhelm Ostwald. Van Houten, J. February, 146–148. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. Van Houten, J. March, 301–304. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1956: Hinshelwood and Semenov. Van Houten, J. April, 414–416. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1967: Eigen, Norrish, and Porter. Van Houten, J. May, 548–550. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. Van Houten, J. June, 667–669. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. Van Houten, J. July, 788–790. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. Van Houten, J. August, 926–933. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. Van Houten, J. September, 1055–1059. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul Crutzen, Sherwood Rowland, and Mario Molina. Van Houten, J. October, 1182–1188. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. Van Houten, J. November, 1297–1306. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. Guzmán-Casado, M.; Parody-Morreale, A. March, 327–331. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883. Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Predictors of Success in Physical Chemistry. (CER) Derrick, M. E.; Derrick, F. W. August, 1013–1016. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Quantifying Meniscus Forces with an Electronic Balance: Direct Measurement of Liquid Surface Tension. A Physical Chemistry Experiment. Digilov, R. March, 353–355. Rare Gas Viscosities: A Learning Tool. Halpern, A. M. February, 214–216. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. Saving a Drug Poisoning Victim: A Kinetics Simulation. Selco, J. I.; Beery, J. May, 578–582. Second Law: Statement and Applications. Infelta, P. July, 884–888. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. September, 1094–1100.
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JCE Online Index: http://JChemEd.chem.wisc.edu
Simple Apparatus for Gravitational Sedimentation. (CET) Hu, D.; Cui, Y.; Fang, Y. May, 623–625. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004. Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. Martel, D.; Sojic, N.; Kuhn, A. March, 349–352. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443. Statistical Mechanics: A Concise Introduction for Chemists (by Benjamin Widom). (BMR) Kovac, J. D. November, 1322. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Student Access to Symbolic Mathematics Software. (MCAD) Zielinski, T. J. November, 1377. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Survey of Computer Use in Undergraduate Physical Chemistry. Miles, D. G.; Francis, T. A. December, 1477–1479. Survival Guide for Physical Chemistry (by Michelle Francl). (BMR) Elrod, M. J. September, 1074–1075. Teaching Molecular Applications of the Particle-in-aRing Model Using Azulene. Castanho, M. A. September, 1092. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) Bernal, P. J. September, 1075–1076. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. Cortés-Figueroa, J. E.; Moore, D. A. December, 1462–1464. Using Computer Graphics to Demonstrate the Origin and Applications of the “Reacting Bond Rules”. (CBB) Tyler, D. R. November, 1372–1376. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78– 80. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461. Using the Asymmetric Stretch Band of Atmospheric CO2 to Obtain the C=O Bond Length. Ogren, P. J. January, 117–119. Variational Method Applied to the Harmonic Oscillator. (MCAD) Dunn, S. K. November, 1378. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Physical Properties Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. Is Salt Melting When It Dissolves in Water? Goodwin, A. March, 393–396. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. May, 619–622. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883.
Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Rare Gas Viscosities: A Learning Tool. Halpern, A. M. February, 214–216. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443.
Pimentel Award Address Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) Doyle, M. P. September, 1038–1044.
Plant Chemistry Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. August, 976–979. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113.
Plastics Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) Frech, C. B. September, 1072. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797.
Polymer Chemistry Applied Polymer Science: 21st Century (edited by Clara D. Craver and Charles E. Carraher, Jr.). (BMR) Allin, S. B. August, 942. Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071. Dendrimers: Branching Out of Polymer Chemistry. Simanek, E. E.; Gonzalez, S. O. October, 1222–1231. Environmentally Responsive Hydrogels. Schueneman, S. M.; Chen, W. July, 860–862. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Industrial Internship Program in Polymer Chemistry. (NSF) Tyler, D. R. July, 796–797. Interdisciplinary Research: A Student’s Perspective. (Commentary) Brown, E. N. January, 13–15. Introduction to Synthetic Polymers, 2nd Edition (by Ian M. Campbell). (BMR) Waldow, D. May, 561–562. Isolation of Rubber from Milkweed Leaves. An Introductory Organic Chemistry Lab. Volaric, L.; Hagen, J. P. January, 91–93. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) Heinhorst, S.; Cannon, G. January, 10–12. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443. Surface Light Scattering Adapted to the Advanced Un-
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html dergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012. Synthesis and Characterization of a Hyperbranched Copolymer. Royappa, A. T. January, 81–84. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355– 1357. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78– 80. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461.
Potassium Potassium Chlorate. (CLIP) Young, J. A. August, 936. Potassium Chromate. (CLIP) Young, J. A. September, 1065. Potassium Perchlorate. (CLIP) Young, J. A. August, 937.
Problem-Based Learning Bioinformatics by Example: From Sequence to Target. Kossida, S.; Tahri, N.; Daizadeh, I. December, 1480– 1485. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Denitrification as a Model Chemical Process. Grguric, G. February, 179–182. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. Harvey, D. T. May, 613–615. For Mole Problems, Call Avogadro: 602-1023. Uthe, R. E. October, 1213. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Organic Puzzle Using Meldrum’s Acid. (ML) Crouch, R. D.; Holden, M. S. April, 477–478. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. Radioactivity, Radiation, and the Chemistry of Nuclear Waste. Zevos, N. June, 692–696. Saving a Drug Poisoning Victim: A Kinetics Simulation. Selco, J. I.; Beery, J. May, 578–582. Tetrahedral Geometry and the Dipole Moment of Molecules. Mendiara, S. N.; Perissinotti, L. J. January, 64– 66. Why Do Some Batteries Last Longer Than Others? Smith, M. J.; Vincent, C. A. July, 851–853.
Products of Chemistry Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. Nitrogen-Based Diazeniumdiolates: Versatile Nitric Oxide-Releasing Compounds for Biomedical Research and Potential Clinical Applications. (POC) Saavedra, J. E.; Keefer, L. K. December, 1427–1434. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335.
Proteins/Peptides Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. January, 115–116.
Volume 79 • 2002 • Subject Index Cis–Trans Equilibrium of N-Acetyl-L-Proline. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; German, I.; Alvarez, E. March, 372–373. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. D’Andrea, G.; Di Nicolantonio, G. August, 972–975. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. Novel and Innovative Biochemistry Laboratory: Crystal Growth of Hen Egg White Lysozyme. Garrett, E.; Wehr, A.; Hedge, R.; Roberts, D. L.; Roberts, J. R. March, 366–368. Solid-Phase Organic Synthesis and Combinatorial Chemistry: A Laboratory Preparation of Oligopeptides. Truran, G. A.; Aiken, K. S.; Fleming, T. R.; Webb, P. J.; Markgraf, J. H. January, 85–86. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Using Infrared Spectroscopy to Investigate Protein Structure. Olchowicz, J. C.; Coles, D. R.; Kain, L. E.; MacDonald, G. March, 369–371.
Public Understanding ACS Presidential Election: Statement on Education—A Core Commitment of Chemists and the ACS. Casey, C. P. September, 1036. ACS Presidential Election: Statement on Education— Education at the Core. Kwiram, A. L. September, 1037. Avtex Saga: National Security versus Environmental Protection. Groves, S.; Settle, F. A. June, 685–691. Blending in with the Body. (POC) Lewis, A. L.; Driver, M. J. March, 321–326. Chemical Adventures of Sherlock Holmes: The Case of Three. Rybolt, T. R.; Waddell, T. G. April, 448–453. Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) Williams, K. R. October, 1168–1169. Conversion of Serum-Alcohol Concentrations to Corresponding Blood-Alcohol Concentrations (re J. Chem. Educ. 2001, 78, 1225–127). (Letter) Labianca, D. A. July, 803. Educating Teachers. (Editorial) Moore, J. W. June, 647. Everybody Wins! 2nd Edition (by Gordon Cain). (BMR) Caswell, M. May, 561. Fire Making, Part 1. (FPI) Williams, K. R. April, 408. Fire Making, Part 2. (FPI) Williams, K. R. May, 540–542. Flawed Nature of the Calibration Factor in Breath-Alcohol Analysis. Labianca, D. A. October, 1237–1240. Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. The Genie in the Bottle (by Joe Schwarcz. (BMR) Kovac, J. D. March, 316. Getting Hooked on Chemistry. (EHST) Mason, D. S. April, 409. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. Laboratory Balance. (Letter) Kramer, F. A. May, 559. A Long Way to Go. (Editorial) Moore, J. W. April, 407. Midgley—A Two-Time Environmental Loser. (Letter) Kauffman, G. B. May, 559. Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. National Chemistry Week 2002: Chemistry Keeps Us Clean. Chemists Clean Up: A History and Explora-
tion of the Craft of Soapmaking—How Soap Came to Be Common in America. Kostka, K. L.; McKay, D. D. October, 1172–1175. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. Nitrogen Triiodide. (Letter) Tudela, D. May, 558. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. Van Houten, J. January, 21–22. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1909: Wilhelm Ostwald. Van Houten, J. February, 146–148. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1943: George de Hevesy. Van Houten, J. March, 301–304. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1956: Hinshelwood and Semenov. Van Houten, J. April, 414–416. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1967: Eigen, Norrish, and Porter. Van Houten, J. May, 548–550. Nobel Centennial Essays: A Century of Chemical Dynamics Traced Through the Nobel Prizes. 1981: Fukui and Hoffmann. Van Houten, J. June, 667–669. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1983: Henry Taube. Van Houten, J. July, 788–790. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1986: Dudley Herschbach, Yuan Lee, and John Polanyi. Van Houten, J. August, 926–933. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1992: Rudolph Marcus. Van Houten, J. September, 1055–1059. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1995: Paul Crutzen, Sherwood Rowland, and Mario Molina. Van Houten, J. October, 1182–1188. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1998: Walter Kohn and John Pople. Van Houten, J. November, 1297–1306. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1999: Ahmed Zewail. Van Houten, J. December, 1396–1402. Oxygen (by Carl Djerassi and Roald Hoffmann). (BMR) Kovac, J. D. April, 436. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. August, 976–979. Production, Microstructure, and Properties of Wrought Iron. Walker, R. VII. April, 443–447. Quote Boxes for Chemistry Teachers. Olney, D. April, 447. The Science of Chocolate (by Stephen T. Beckett. (BMR) Kovac, J. D. February, 167–168. Summer Reading. Kovac, J. D.; Pagni, R. M.; Harris, H. H.; Coppola, B. P. June, 648–659. Uncle Tungsten: Memories of a Chemical Boyhood (by Oliver Sacks). (BMR) Schwartz, A. T. March, 312. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Qualitative Analysis Identification of Flavor Components in Perfumes by Headspace Solid-Phase Microextraction and Gas Chromatography–Mass Spectrometry. Knupp, G.; Kusch, P.; Neugebauer, M. January, 98–100. Leopold’s Workbench: The Hapsburg-Lorraine Grand Duke and Chemistry. Scorrano, G.; Nicolini, N.; Masoner, I. M. January, 47–52. New Glow on the Chromatography of M&M Candies. Birdwhistell, K. R.; Spence, T. G. July, 847.
Quantitative Analysis Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850.
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Subject Index • Volume 79 • 2002 Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347. Application of Datalogger in Biosensing: A Glucose Biosensor. Choi, M. M.; Wong, P. S. August, 982–984. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Electrophilic Bromination of Toluene: Determination of the Ortho, Meta, and Para Ratios by Quantitative FTIR Spectrometry. (ML) Smith, R. E. IV.; McKee, J. R.; Zanger, M. February, 227–229. Elemental Analysis of Wisdom Teeth by Atomic Spectroscopy Using Standard Additions. An Undergraduate Instrumental Analysis Laboratory Exercise. Porter, V. J.; Sanft, P. M.; Dempich, J. C.; Dettmer, D. D.; Erickson, A. E.; Dubauskie, N. A.; Myster, S. T.; Matts, E. H.; Smith, E. T. September, 1114–1116. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. Harvey, D. T. May, 613–615. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. Laboratory Balance. (Letter) Kramer, F. A. May, 559. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Nitrogen Triiodide. (Letter) Tudela, D. May, 558. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505. Two Experiments Illustrating the Importance of Sampling in a Quantitative Chemical Analysis. Harvey, D. T. March, 360–363. Weigh This Way. Bonicamp, J. M. April, 476.
Quantum Chemistry ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Application of the WKB Approximation in the Solution of the Schrödinger Equation. Gasyna, Z. L.; Light, J. C. January, 133–134. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Hydrogen Molecular Ion Revisited. Grivet, J. January, 127–132. Illustrating the Bohr Correspondence Principle. (MCAD) Lo, G. V. November, 1377–1378. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) Pounds, A. April, 434–435. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) Rioux, F. December, 1404–1406. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem.
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Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. September, 1094– 1100. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Teaching Molecular Applications of the Particle-in-aRing Model Using Azulene. Castanho, M. A. September, 1092. Understanding and Interpreting Molecular Electron Density Distributions. Matta, C. F.; Gillespie, R. J. September, 1141–1152. Variational Method Applied to the Harmonic Oscillator. (MCAD) Dunn, S. K. November, 1378.
Raman Spectroscopy Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Preparation and Characterization of Bayerite Samples: Use of Diffuse Reflectance Infrared Spectroscopy to Monitor Purification. Phambu, N.; Humbert, B.; Burneau, A. September, 1117–1118.
Reactive Intermediates Mechanism of the Ritter Reaction in Combination with Wagner–Meerwein Rearrangements. A Cooperative Learning Experience. Colombo, M. I.; Bohn, M. L.; Rúveda, E. A. April, 484–485. One-Pot Synthesis of m-Terphenyls: A Guided Exploration of Reaction Chemistry, Chromatography, and Spectroscopy. A Miniproject for the Advanced Organic Chemistry Laboratory. Anam, K. T.; Curtis, M. P.; Irfan, M. J.; Johnson, M. P.; Royer, A. P.; Shahmohammadi, K.; Vinod, T. K. May, 629–632.
Redox Reactions Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Chiral Compounds and Green Chemistry in Undergraduate Organic Laboratories: Reduction of a Ketone by Sodium Borohydride and Baker’s Yeast. Pohl, N. L.; Clague, A.; Schwarz, K. June, 727–728. Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. Holder, D. A.; Johnson, B. G.; Karol, P. J. April, 465–467. Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. Rodríguez, E.; Vicente, M. A. April, 486–488. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. Sanger, M. J.; Geer, K. August, 994–996. Determining Oxidation–Reduction on a Simple Number Line. Cox, A. L.; Cox, J. R. August, 965–967. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70–73. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Lead–Acid Battery: Its Voltage in Theory and Practice. Treptow, R. S. March, 334–338. New Approach to Understanding Oxidation–Reduction of Compounds in Organic Chemistry. Menzek, A. June, 700–702. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. Vitz, E. March, 397–400. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43.
Resources for Student Assessment Epoxide Reactions. (RSA) Bertolini, T. July, 828. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) Denyer, G. S.; Hancock, D. August, 961–964.
Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571.
Reports from Other Journals— Chem 13 News Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153.
Reports from Other Journals— Nature Nature: Clean Up Your Act with Chemistry. (ROJNature) Heinhorst, S.; Cannon, G. October, 1170–1171. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) Rioux, F. December, 1404–1406. Nature: Self-Healing Polymers and Other Improved Materials. (ROJNature) Heinhorst, S.; Cannon, G. January, 10–12.
Reports from Other Journals— News from Online News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. News from Online: WWW Sites for Biochemistry Teachers. (ROJOnline) Hicks, B. W. May, 536–539.
Reports from Other Journals— The Physics Teacher The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) Clark, R. W. February, 154.
Reports from Other Journals— Science Education Research Literature Action Research Report: Improving Pre-Laboratory Preparation of First- Year University Chemistry Students. (ROJResLit) Lyle, K. S.; Robinson, W. R. June, 663–665. Phenomenographic Study: First Year Chemical Engineering Students’ Conceptions of Energy in Dissolution Processes. (ROJResLit) Lyle, K. S.; Robinson, W. R. October, 1189–1191. Talking about Science. (ROJResLit) Lyle, K. S.; Robinson, W. R. January, 18–20.
Reports from Other Journals— The Science Teacher The Science Teacher: Summer 2002. (ROJSciTea) Long, S. August, 924–925. The Science Teacher: Winter 2002. (ROJSciTea) Long, S. February, 142–144.
Safety/Hazardous Substances Acetaldehyde. (CLIP) Young, J. A. June, 672. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) de Mattos, M. C.; Nicodem, D. E. September, 1070. Another Hazard (re J. Chem. Educ. 2002, 79, 94–95). (Letter) Umland, J. B. September, 1070. Anthracene. (CLIP) Young, J. A. May, 553. Arsenic(III) Oxide. (CLIP) Young, J. A. January, 23. Barium Chloride Dihydrate. (CLIP) Young, J. A. May, 554. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 (by American Chemical Society and ACS Board–Council Committee on Chemical Safety). (BMR) Keith-Lucas, L. March, 315–316. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) Crutchfield, C. A. October, 1202. CLIP: Acetic Anhydride (re J. Chem. Educ. 2001, 78, 1176). (Letter) Young, J. A. October, 1202. Copper(II) Sulfate Pentahydrate. (CLIP) Young, J. A. February, 158. Correction to Chemical Laboratory Information Profile: Anthracene (re J. Chem. Educ. 2002, 79, 553). (Correction) Young, J. A. September, 1071. Cover Puzzle: What’s Wrong in This Lab? April, 432. Ethylenediaminetetraacetic Acid. (CLIP) Young, J. A. April, 426. Fire Making, Part 1. (FPI) Williams, K. R. April, 408.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Fire Making, Part 2. (FPI) Williams, K. R. May, 540–542. Formic Acid (85–95%). (CLIP) Young, J. A. February, 157. Glass Wool. (CLIP) Young, J. A. June, 673. Implementing Temporary Facilities for Organic Chemistry Laboratory. Amburgey-Peters, J. C. May, 607– 610. Mercury(I) Chloride. (CLIP) Young, J. A. July, 799. Nitric Acid (approx. 70%). (CLIP) Young, J. A. December, 1413. Oleic Acid. (CLIP) Young, J. A. January, 24. Osmium Tetroxide. (CLIP) Young, J. A. September, 1064. Potassium Chlorate. (CLIP) Young, J. A. August, 936. Potassium Chromate. (CLIP) Young, J. A. September, 1065. Potassium Perchlorate. (CLIP) Young, J. A. August, 937. Sodium Acetate. (CLIP) Young, J. A. November, 1314. Sodium Carbonate (anhydrous). (CLIP) Young, J. A. November, 1315. Sodium. (CLIP) Young, J. A. April, 425. Sodium Fluoride. (CLIP) Young, J. A. October, 1197. Sodium Hypochlorite Solution. (CLIP) Young, J. A. October, 1196. Sodium Nitrate. (CLIP) Young, J. A. December, 1414. Sodium Thiosulfate Pentahydrate. (CLIP) Young, J. A. July, 798. Sulfur. (CLIP) Young, J. A. September, 1063. Tethering Bottle Caps. Ruekberg, B. April, 499.
Second-Year & AP Chemistry Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Putting Reaction Rates and Collision Theory in the Hands of Your Students. (2AP) Evenson, A. July, 822–823.
Secondary School Chemistry Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472.
Selenium Analysis of Selenium in Brazil Nuts by Microwave Digestion and Fluorescence Detection. Sheffield, M.; Nahir, T. M. November, 1345–1347.
Separation Science Chemistry under the Microscope—Lab-on-a-Chip Technologies. (POC) Legge, C. H. February, 173–178. Identification of Yeast V-ATPase Mutants by Western Blots Analysis of Whole Cell Lysates. Parra-Belky, K. November, 1348–1350. Modeling the Drug Discovery Process: The Isolation and Biological Testing of Eugenol from Clove Oil. (2AP) Miles, W. H.; Smiley, P. M. January, 90. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388.
Sodium Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B. Sodium Acetate. (CLIP) Young, J. A. November, 1314. Sodium Carbonate (anhydrous). (CLIP) Young, J. A. November, 1315. Sodium. (CLIP) Young, J. A. April, 425. Sodium Fluoride. (CLIP) Young, J. A. October, 1197. Sodium Hypochlorite Solution. (CLIP) Young, J. A. October, 1196. Sodium Nitrate. (CLIP) Young, J. A. December, 1414. Sodium Thiosulfate Pentahydrate. (CLIP) Young, J. A. July, 798.
Solid-State Chemistry Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859.
Volume 79 • 2002 • Subject Index Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70– 73. Generating Closed Shapes from Regular Tilings. Boo, W. O.; Mattern, D. L. August, 1017–1023. Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box. Kippeny, T. C.; Swafford, L. A.; Rosenthal, S. J. September, 1094– 1100. Simple Synthesis and Characterization of Several Nickel Catalyst Precursors. Cesteros, Y.; Salagre, P.; Medina, F.; Sueiras, J. E. April, 489–491. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104.
Solids Applications of the Sol–Gel Process Using Well-Tested Recipes. (ACL) Celzard, A.; Marêché, J. F. July, 854– 859. How Does Light Scattering Affect Luminescence? Fluorescence Spectra and Quantum Yields in the Solid Phase. Lagorio, M. G.; San Román, E. November, 1362–1367. Is Salt Melting When It Dissolves in Water? Goodwin, A. March, 393–396. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. May, 619–622.
Solutions/Solvents Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Copper-Sulfate-Based Inorganic Chemistry Laboratory for First-Year University Students That Teaches Basic Operations and Concepts. Rodríguez, E.; Vicente, M. A. April, 486–488. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Cyclodextrin Inclusion Complexes with a Solvatochromic Fluorescent Probe. Crane, N. J.; Mayrhofer, R. C.; Betts, T. A.; Baker, G. A. October, 1261–1263. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Effect of Mutual Solubility of Solvents in Multiple Liquid–Liquid Extraction. Michalowski, T. October, 1267–1268. Flawed Nature of the Calibration Factor in BreathAlcohol Analysis. Labianca, D. A. October, 1237– 1240. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. Magnetic Stirring with the Stirring Bar Length Exceeding the Vessel Diameter. Payne, K. W.; Lucas, J. M.; Eisenbraun, E. J. February, 217. Nobel Centennial Essays: A Century of Chemical Dynamics Traced through the Nobel Prizes. 1903: Svante Arrhenius. Van Houten, J. January, 21–22. Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Principal Species and pH in Acid–Base Solutions. (JCE WebWare) Hanson, R. M. December, 1486. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Statistical Study of Distribution Diagrams for Two-Component Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. MoyaHernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. March, 389–392. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Spectrometry/Spectroscopy see
Atomic Spectroscopy Fluorescence Spectrometry IR Spectroscopy Lasers/Laser Spectroscopy Mass Spectrometry NMR Spectrometry Raman Spectroscopy UV–Vis Spectroscopy
Spreadsheets Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) Lim, K. F. January, 135. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) Vitz, E. July, 896.
Statistical Mechanics Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443. Statistical Mechanics: A Concise Introduction for Chemists (by Benjamin Widom). (BMR) Kovac, J. D. November, 1322. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) Bernal, P. J. September, 1075–1076.
Statistics/Data Analysis ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Conversion of Serum-Alcohol Concentrations to Corresponding Blood-Alcohol Concentrations (re J. Chem. Educ. 2001, 78, 1225–127). (Letter) Labianca, D. A. July, 803. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. External Standards or Standard Additions? Selecting and Validating a Method of Standardization. Harvey, D. T. May, 613–615. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Nonlinear Fits of Standard Curves: A Simple Route to Uncertainties in Unknowns. Salter, C.; de Levie, R. February, 268–270. Poisson Distribution and Single-Molecule Spectroscopy. An Undergraduate Analytical Laboratory Experiment. Harbron, E. J.; Barbara, P. F. February, 211–213. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Roberts, J. L. Jr. August, 941. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Singh, M. M.; McGowan, C. B.; Szafran, Z. August, 941. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Signal-to-Noise Ratio, Signal Processing, and Spectral Information in the Instrumental Analysis Laboratory. Blitz, J. P.; Klarup, D. G. November, 1358–1360. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) Lim, K. F. January, 135. Statistical Study of Distribution Diagrams for Two-Component Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. MoyaHernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. March, 389–392. Teaching Experimental Design Using a GC–MS Analysis of Cocaine on Money: A Cross-Disciplinary Laboratory. Heimbuck, C. A.; Bower, N. W. October, 1254–1256.
JChemEd.chem.wisc.edu • Vol. 79 No. 12 December 2002 • Journal of Chemical Education
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JCE Online Index: http://JChemEd.chem.wisc.edu
Two Experiments Illustrating the Importance of Sampling in a Quantitative Chemical Analysis. Harvey, D. T. March, 360–363. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78– 80. Using the Cambridge Structural Database to Introduce Important Inorganic Concepts. Davis, T. V.; Zaveer, M. S.; Zimmer, M. October, 1278–1280.
March, 349–352. Stoichiometric Displacement Model and Langmuir and Freundlich Adsorption. Geng, X.; Zebolsky, D. M. March, 385–388. Surface Light Scattering Adapted to the Advanced Undergraduate Laboratory. (ACL) Miles, D. G.; Yang, Z.; Yu, H. August, 1007–1012.
Stereochemistry
Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) Peters, D. G. July, 783–786.
1H
NMR Measurement of the Trans–Cis Photoisomerization of Cinnamic Acid Derivatives. Danylec, B.; Iskander, M. N. August, 1000–1001. Diastereoselective Synthesis of a Strawberry Flavoring Agent by Epoxidation of Ethyl trans-βMethylcinnamate. Pageau, G. J.; Mabaera, R.; Kosuda, K. M.; Sebelius, T. A.; Ghaffari, A. H.; Kearns, K. A.; McIntyre, J. P.; Beachy, T. M.; Thamattoor, D. M. January, 96–97. Generating Closed Shapes from Regular Tilings. Boo, W. O.; Mattern, D. L. August, 1017–1023. Nobel Prize in Chemistry for 2001. Ault, A. May, 572– 577. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Lentini, G. May, 558. On the Stereochemistry of “Natural” α-Amino Acids (re J. Chem. Educ. 2000, 77, 48–49). (Letter) Leung, S. H. May, 559. Stereochemistry (by David G. Morris). (BMR) Crouch, R. D. February, 167. Synthesis of a Racemic Ester and Its Lipase-Catalyzed Kinetic Resolution. Stetca, D.; Arends, I. W.; Hanefeld, U. November, 1351–1352. World’s First “Pastarimeter”: An Analogous Demonstration of Polarimetry Using Pasta Fusilli. (AA) Saxon, C.; Brindley, S.; Jervis, N.; Jones, G. R.; Morgan, E. D.; Ramsden, C. A. October, 1214–1216.
Stoichiometry Alka Seltzer Fizzing—Determination of Percent by Mass of NaHCO3 in Alka Seltzer Tablets. An Undergraduate General Chemistry Experiment. Chen, Y.; Yaung, J. July, 848–850. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Denitrification as a Model Chemical Process. Grguric, G. February, 179–182. Determination of the Empirical Formula of a Copper Oxide Salt Using Two Different Methods. Sanger, M. J.; Geer, K. August, 994–996. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. Aledo, J. C.; Esteban del Valle, A. November, 1336–1339. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. Using Limiting–Excess Stoichiometry to Introduce Equilibrium Calculations: A Discrepant Event Laboratory Activity Involving Precipitation Reactions. DeMeo, S. April, 474–475.
Sulfur Sulfur. (CLIP) Young, J. A. September, 1063.
Surface Science Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. News from Online: Cleaning Up—Soap, Detergent, and More. (ROJOnline) Judd, C. S. October, 1179–1181. Nucleation in Gas–Liquid Transitions. Talanquer, V. July, 877–883. The Physics Teacher: The Overlap of Chemistry and Physics. (ROJPhysTea) Clark, R. W. February, 154. Quantifying Meniscus Forces with an Electronic Balance: Direct Measurement of Liquid Surface Tension. A Physical Chemistry Experiment. Digilov, R. March, 353–355. Simple Student Experiment for Teaching Surface Electrochemistry: Adsorption of Polyoxometalate on Graphite Electrodes. Martel, D.; Sojic, N.; Kuhn, A.
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TA Training
Teaching/Learning Aids Acid–Base Equilibria in Aqueous Solutions. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1486. Acid–Base Reactions with Carbon Dioxide. (JCE Classroom Activity) Carvalho, A. P.; Mendonça, Â. F.; Piedade, M. F. December, 1464A–1464B. After-Dinner Trick. (JCE Classroom Activity) JCE Editorial Staff. April, 480A–480B. Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Applied Polymer Science: 21st Century (edited by Clara D. Craver and Charles E. Carraher, Jr.). (BMR) Allin, S. B. August, 942. Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Bridging to the Lab [CD-ROM] (by Loretta Jones and Roy Tasker). (BMR) Conover, W. June, 679–680. Brushing Up on Chemistry. (JCE Classroom Activity) Trantow, A. October, 1168A–1168B. Chem 13 News: A Valuable Resource. (ROJ13News) Thorsen, K. February, 150–153. Chem Gems & Joules. (EHST) Mason, D. S. September, 1033. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Chemistry Comes Alive! Volume 6. (JCE Software) Jacobsen, J. J.; Moore, J. W.; Browne, L. M.; Zimmerman, J. F. November, 1381–1384. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Chemistry Formatter Add-ins for Microsoft Word and Excel. (JCE WebWare) King, C. July, 896. Chemistry Game Shows. Campbell, S.; Muzyka, J. April, 458. Clean Chemistry: Entertaining and Educational Activities with Soap Bubbles. (FPI) Williams, K. R. October, 1168–1169. Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Commencement. (EHST) Mason, D. S. January, 8. Consistent Set of Oxidation Number Rules for Intelligent Computer Tutoring. Holder, D. A.; Johnson, B. G.; Karol, P. J. April, 465–467. Correction to Featured Molecule of of the Month: July 2002 (re J. Chem. Educ. 2002, 79, 772 and 896). (Correction) Coleman, W. F.; Wildman, R. J. September, 1071. Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472. DeLorenzo’s Four Interesting Mysteries Verified. FerriolsPavico, J. M. October, 1217–1219. Dendrimers: Branching Out of Polymer Chemistry. Simanek, E. E.; Gonzalez, S. O. October, 1222–1231. Depletion: A Game with Natural Rules for Teaching Reaction Rate Theory. Olbris, D. J.; Herzfeld, J. October, 1232–1234. Determining Oxidation–Reduction on a Simple Number Line. Cox, A. L.; Cox, J. R. August, 965–967. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Division of Chemical Education: News and Notices. (ACS) April, 422. Early Automated Testing: The 5-0-2. (FPI) Williams, K. R. January, 16–17. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re
J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70– 73. Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. Epoxide Reactions. (RSA) Bertolini, T. July, 828. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. Excel Program to Study First-Order Kinetics. (JCE WebWare) Muranaka, K. January, 135. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Featured Molecule of the Month: August 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. August, 1024. Featured Molecule of the Month: December 2002— Nitric Oxide-Releasing Compounds. (JCE WebWare) Coleman, W. F.; Wildman, R. J. December, 1470. Featured Molecule of the Month: July 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. July, 896. Featured Molecule of the Month: November 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1384. Featured Molecule of the Month: October 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. October, 1246. Featured Molecule of the Month: September 2002. (JCE WebWare) Coleman, W. F.; Wildman, R. J. September, 1152. Fingerprinting: Commercial Products and Elements. (AA) Allen, D.; Oliver-Hoyo, M. T. April, 459–461. For Mole Problems, Call Avogadro: 602-1023. Uthe, R. E. October, 1213. FX Chem 2 (by Efofex Software). (BMR) Clark, R. W. December, 1421–1422. General Chemistry Collection for Students, 6th Edition. (JCE Software) May, 637–638. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) Denyer, G. S.; Hancock, D. August, 961–964. Graphical Approach to Determine the Isoelectric Point and Charge of Small Peptides from pH 0 to 14. D’Andrea, G.; Di Nicolantonio, G. August, 972–975. Group Problem-Solving versus Lecture in College-Level Quantitative Analysis: The Good, the Bad, and the Ugly. (CER) Williamson, V. M.; Rowe, M. W. September, 1131–1134. A Guide to Classroom Instruction for Adjunct Faculty (by John H. Reed. (BMR) Karty, J. M. November, 1325–1326. Hückel Theory I and II. (MCAD) LoBue, J. M. November, 1378. Illustrating Poisson’s Ratios with Paper Cutouts. (OPD) Campbell, D. J.; Querns, M. K. January, 76–77. Illustrating the Bohr Correspondence Principle. (MCAD) Lo, G. V. November, 1377–1378. Incorporation of the CrossFire Beilstein Database into the Organic Chemistry Curriculum at the Royal Danish School of Pharmacy. (CII) Christensen, S. B.; Franzyk, H.; Frølund, B.; Jaroszewski, J. W.; Stærk, D.; Vedsø, P. June, 765–768. JCE Workshops at 17 BCCE. May, 547. Journal of Chemical Education on CD-ROM, 2001. (JCE Software) January, 136. KinSimXP, a Chemical Kinetics Simulation. (JCE Software) Allendoerfer, R. D. May, 638–639. Le Chat: Simulation in Chemical Equilibrium. (JCE Software) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 640. Lego Stoichiometry. (JCE Classroom Activity) Witzel, J. E. March, 352A–352B. Letter Matrix Puzzle on the Symbols of Elements. Kelkar, V. D. April, 456–457. Linking JCE WebWare to JCE Articles. (JCE WebWare) Coleman, W. F.; Wildman, R. J. June, 768. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. MACTLAC–Supporting Liberal Arts Chemistry Faculty. Muyskens, M. A. June, 670–671. Mathcad Documents and Student Learning. (MCAD) Zielinski, T. J. April, 527–528. Measurements for a Rainy Day. (JCE Classroom Activity) JCE Editorial Staff. September, 1104A–1104B. Meltdown Showdown! Which Deicer Works Best? (JCE Classroom Activity) Lyga, J. W. May, 592A–592B.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Modern Sport and Chemistry: What a Chemically Aware Sports Fanatic Should Know. Giffin, G. A.; Boone, S. R.; Cole, R. S.; McKay, S. E.; Kopitzke, R. July, 813–819. National Chemistry Week 2002: Chemistry Keeps Us Clean. JCE Resources for Chemistry and Cleaning. Jacobsen, E. K. October, 1162–1167. New Approach to Understanding Oxidation–Reduction of Compounds in Organic Chemistry. Menzek, A. June, 700–702. News from Online: What’s New with Chime? (ROJOnline) Dorland, L. July, 778–782. News from Online: WWW Sites for Biochemistry Teachers. (ROJOnline) Hicks, B. W. May, 536–539. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition (by J. K. Akitt and B. E. Mann). (BMR) Mehta, M. June, 677. Nonradioactive Simulation of the Viking Mission Labeled-Release Experiment: A Search for Evidence of Life. Cortón, E.; Haim, L.; Kocmur, S.; Visbeek, G. J.; Galagovsky, L. September, 1105–1108. Of Magnets and Mechanism. (OPD) Neeland, E. G. February, 186. Optics Demonstrations on the Overhead Projector (by Douglas S. Goodman). (BMR) Kolb, D. April, 436– 437. Organic Structures from Spectra (by L. D. Field, S. Sternhell, and J. R. Kalman). (BMR) Rosan, A. M. November, 1323–1324. Periodic Table Live! 3rd Edition. (JCE Software) Adelman, N. B.; Holmes, J. L.; Jacobsen, J. J.; Moore, J. W.; Schatz, P. F.; Tweedale, J.; Banks, A. J.; Kotz, J. C.; Robinson, W. R.; Young, S. M. December, 1487– 1488. pH of Sodium Acetate Solutions. (Letter) Schmitz, G. January, 29. Plants and Chemistry: A Teaching Course Based on the Chemistry of Substances of Plant Origin. Andreoli, K.; Calascibetta, F.; Campanella, L.; Favero, G.; Occhionero, F. August, 976–979. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Prospectus 2002. (JCE Software) Holmes, J. L.; Gettys, N. S. February, 271–272. Quote Boxes for Chemistry Teachers. Olney, D. April, 447. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. The Science Teacher: Summer 2002. (ROJSciTea) Long, S. August, 924–925. The Science Teacher: Winter 2002. (ROJSciTea) Long, S. February, 142–144. Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Simple Technique for Simultaneous Smoothing and Integration of Data. (JCE WebWare) Nikitas, P.; Malliakas, C. January, 135. SIRs: Simulations and Interactive Resources for Windows. (JCE Software) Martin, J. S. May, 639. Some Unusual Applications of the “Error-Bar” Feature in Excel Spreadsheets. (JCE WebWare) Lim, K. F. January, 135. Spontaneous Assembly of Soda Straws. Campbell, D. J.; Freidinger, E. R.; Hastings, J. M.; Querns, M. K. February, 201–202. Spreading the Word. (EHST) Jacobsen, E. K. January, 9. Spreadsheet Methods for Point Group Theoretical Calculations. (JCE WebWare) Vitz, E. July, 896. Student Access to Symbolic Mathematics Software. (MCAD) Zielinski, T. J. November, 1377. Survey of Computer Use in Undergraduate Physical Chemistry. Miles, D. G.; Francis, T. A. December, 1477–1479. Tetrahedral Geometry and the Dipole Moment of Molecules. Mendiara, S. N.; Perissinotti, L. J. January, 64– 66. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Through the Looking Glass. (JCE Classroom Activity) JCE Editorial Staff. November, 1360A–1360B. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B.
Volume 79 • 2002 • Subject Index Understanding Biochemical Dissociation Constants: A Temporal Perspective. Jakubowski, H. V. August, 968– 971. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ault, A. March, 311. Understanding Enzyme Inhibition (re J. Chem. Educ. 2000, 77, 1453–1456). (Letter) Ochs, R. S. March, 311. Using a Graphing Calculator to Determine a First-Order Rate Constant When the Infinity Reading Is Unknown. Cortés-Figueroa, J. E.; Moore, D. A. December, 1462–1464. Using Proverbs in Chemistry. Ibanez, J. G. April, 454– 455. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) O’Reilly, S. A.; Wilson, A. M.; Howes, B. April, 524–526. Variational Method Applied to the Harmonic Oscillator. (MCAD) Dunn, S. K. November, 1378. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43. WebWare for Classroom, Computer Room, Student’s Room. (JCE WebWare) Coleman, W. F.; Wildman, R. J. November, 1379.
Teaching/Learning Theory/Practice ACS National Meeting: Boston, August 18–22 2002. Notices, Division of Chemical Education. August, 915. ACS National Meeting: Boston, August 18–22 2002. Program for the Division of Chemical Education. Middlecamp, C. H.; Russell, A. A.; Torre, F. August, 906–913. ACS National Meeting: Orlando, April 7–11, 2002. Program for the Division of Chemical Education. Pulliam, E.; Shanbhag, V.; Torre, F. March, 282–289. Advanced High School Chemistry. (Editorial) Moore, J. W. August, 903. Chem Gems & Joules. (EHST) Mason, D. S. September, 1033. The Chemistry–Biology Connection. (Editorial) Moore, J. W. November, 1287. Conant Award Interview: An Interview with Theresa Corley, 2002 Award Winner. JCE Editorial Staff. September, 1046–1052. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Cross-Connections of Chemistry. (EHST) Mason, D. S. February, 143. Educating Teachers. (Editorial) Moore, J. W. June, 647. Flickering Clusters: Women, Science, and Collaborative Transformations (edited by Cheryl Ney, Jacqueline Ross, and Laura Stempel). (BMR) Chapman, S. August, 943–944. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) Denyer, G. S.; Hancock, D. August, 961–964. A Guide to Classroom Instruction for Adjunct Faculty (by John H. Reed. (BMR) Karty, J. M. November, 1325–1326. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Influence of Collaborative Learning on Student Attitudes and Performance in an Introductory Chemistry Laboratory. (CER) Shibley, I. A.; Zimmaro, D. M. June, 745–748. Intellectual Couch Potato? (EHST) Mason, D. S. August, 905. Interview with J. Dudley Herron. Cardellini, L. January, 53–59. LIMSport: Optimizing a Windows-Based Computer Data Acquisition and Reduction System for the General Chemistry Laboratory. (NSF) Vitz, E.; Egolf, B. P. September, 1060–1062. MACTLAC–Supporting Liberal Arts Chemistry Faculty. Muyskens, M. A. June, 670–671. Meeting Reports. 17th Biennial Conference on Chemical Education—Chemistry: The Elements of Change. Jones, R. F. December, 1407–1408. Modeling Effective Teaching and Learning in Chemistry. (NSF) Burke, B. A.; Walton, E. February, 155– 156. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699.
Research/Teaching Partnerships. (Editorial) Moore, J. W. September, 1031. Scientific Misconduct. (Editorial) Moore, J. W. December, 1391. Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Solving Quantum Number Problems: An Examination of Novice Performance in Terms of Conceptual Base Requirements. (CER) Ardac, D. April, 510–513. Survival 101: Strategies for the New College Chemistry Instructor. (2YC3) Muzzi, C. July, 791–792. Teacher Perceptions in the Selection of Experiments. Montes, L. D.; Rockley, M. G. February, 244–247. Teaching and Learning Chemistry. (FPI) Rice, R. E. November, 1292–1294. Teaching as Research. (Editorial) Moore, J. W. May, 535. Teaching for Understanding. (Editorial) Moore, J. W. July, 775. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Toward Better Teaching. 2001 James Flack Norris Award, sponsored by ACS Northeast Section. (Award Address) Peters, D. G. July, 783–786. Visualizing Chemistry. (Commentary) Zare, R. N. November, 1290–1291.
Tested Demonstrations Application of Datalogger in Observing Photosynthesis. (TD) Choi, M. M.; Wong, P. S.; Yiu, T. P. August, 980–981. Are Surfactant Molecules Really Oriented in the Interface? (TD) Gani, N.; Khanam, J. March, 332–333. Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46. Cobalt Alums. A Demonstration Experiment. (TD) Schäffer, C. E.; Steenberg, P. August, 958–960. Direct Methanol Fuel Cell. (TD) Zerbinati, O. July, 829–831. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Efficient Composition for Bengal Lights. (TD) Comet, M.; Schreyeck-Reinert, L.; Fuzellier, H. January, 70– 73. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Factors Affecting Reaction Kinetics of Glucose Oxidase. (TD) Johnson, K. January, 74–76. Liquid Nitrogen Fountain. (TD) McRae, R.; Rahn, J. A.; Beamer, T. W.; LeBret, N. October, 1220–1221. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43.
Testing/Assessment Assessing Student Understanding of General Chemistry with Concept Mapping. (CER) Francisco, J. S.; Nakhleh, M. B.; Nurrenbern, S. C.; Miller, M. L. February, 248–257. Chemistry ConcepTests: Considerations for Small Class Size. Wimpfheimer, T. May, 592. Division of Chemical Education: News and Notices. (ACS) April, 422. Epoxide Reactions. (RSA) Bertolini, T. July, 828. Exams Institute Moves. (ACS) Jones, D. E. June, 671. Following the Development of the Bonding Concept Using Knowledge Space Theory. (CER) Taagepera, M.; Arasashingham, R.; Potter, F.; Soroudi, A.; Lam, G. June, 756–762. Graded Multiple Choice Questions: Rewarding Understanding and Preventing Plagiarism. (RSA) Denyer, G. S.; Hancock, D. August, 961–964. Predicting Students at Risk in General Chemistry Using Pre-semester Assessments and Demographic Information. (CER) Wagner, E. P.; Sasser, H.; DiBiase, W. J. June, 749–755. Right Shift? A Problem in Chemical Equilibrium. (RSA) Paiva, J. C.; Gil, V. M.; Correia, A. F. May, 583. Significance of Accurate Student Self-Assessment in Understanding of Chemical Concepts. (CER) Wiediger, S. D.; Hutchinson, J. S. January, 120–124. Teaching and Assessing Three-Dimensional Molecular Literacy in Undergraduate Biochemistry. (NSF)
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Subject Index • Volume 79 • 2002 Bateman, R. C.; Booth, D.; Sirochman, R.; Richardson, J.; Richardson, D. May, 551–552. Through the Looking Glass and What Alice Ate There. (RSA) Yee, G. T. May, 569–571. What’s in a Name? (JCE WebWare) Hanson, R. M. November, 1380.
Textbooks ABCs of FT-NMR (by John D. Roberts). (BMR) Shibata, J. H. November, 1324–1325. Analytical Chemistry in a GMP Environment: A Practical Guide (edited by James M. Miller and Jonathan B. Crowther). (BMR) Harvey, D. T. December, 1419. Applications of Inorganic Mass Spectrometry (by John R. de Laeter). (BMR) Boggess, B. October, 1206– 1207. Applied Polymer Science: 21st Century (edited by Clara D. Craver and Charles E. Carraher, Jr.). (BMR) Allin, S. B. August, 942. Biochemistry of Signal Transduction and Regulation, 2nd Edition (by Gerhard Krauss). (BMR) Minderhout, V. November, 1321–1322. Carbohydrates: The Sweet Molecules of Life (by Robert V. Stick). (BMR) Gooch, E. E. May, 562–563. Chemical Kinetics and Catalysis (by Richard I. Masel). (BMR) Pagni, R. M. March, 313. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 (by American Chemical Society and ACS Board–Council Committee on Chemical Safety). (BMR) Keith-Lucas, L. March, 315–316. Chemical Sciences in the 20th Century: Bridging Boundaries (edited by Carsten Reinhardt). (BMR) Bernal, P. J. April, 433. Chemistry, 2nd Edition (by Rob Lewis and Wynne Evans). (BMR) Conover, W. April, 437–438. Chemistry for the 21st Century (edited by Ehud Keinan and Israel Schechter). (BMR) Earley, J. E. January, 33. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives (by Henning Hopf ). (BMR) Magid, R. January, 34. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Gorin, G. February, 163. Correctly Expressing Atomic Weights (re J. Chem. Educ. 2000, 77, 1438). (Letter) Paolini, M.; Cercignani, G.; Bauer, C. February, 163. Disorder—A Cracked Crutch for Supporting Entropy Discussions. Lambert, F. L. February, 187–192. Drugs and the Human Body: With Implications for Society, 6th Edition (by Ken Liska). (BMR) Schedler, D. J. July, 805. Effects of Changing Climate on Weather and Human Activities (by Kevin E. Trenberth, Kathleen Miller, Linda Mearns, and Steven Rhodes). (BMR) Williams, E. T. April, 433–434. Entropy Is Simple, Qualitatively. Lambert, F. L. October, 1241–1246. Evergreen: The Tetrahedral Bond Angle. ten Hoor, M. J. August, 956–957. Experiments in Organic Chemistry, 2nd Edition (by Richard K. Hill and J. Barbaro). (BMR) Gooch, E. E. November, 1320–1321. From the Textbook to the Lecture: Improving Prelecture Preparation in Organic Chemistry. Collard, D. M.; Girardot, S. P.; Deutsch, H. M. April, 520–523. Functional Group Chemistry (by James R. Hanson). (BMR) Karty, J. M. June, 678–679. Fundamentals of Electroanalytical Chemistry (by Paul M. S. Monk). (BMR) Langhus, D. L. October, 1207– 1208. Green Plastics: An Introduction to the New Science of Biodegradable Plastics (by E. S. Stevens). (BMR) Frech, C. B. September, 1072. Heterocyclic Chemistry (by Malcolm Sainsbury). (BMR) Pagni, R. M. September, 1073–1074. Holleman-Wiberg’s Inorganic Chemistry (edited by Nils Wiberg). (BMR) Jensen, W. B. August, 944–946. How We Teach Molecular Structure to Freshmen. Hurst, M. O. June, 763–764. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) Pounds, A. April, 434–435. Introduction to Synthetic Polymers, 2nd Edition (by Ian M. Campbell). (BMR) Waldow, D. May, 561–562. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets (by Eugenie Vorburger Mielczarek and Sharon Bertsch McGrayne). (BMR) Doerrer, L. H. July, 806–807. Ligand Field Theory and Its Applications (by Brian N. Figgis and Michael A. Hitchman). (BMR) Turner, J. F. September, 1072–1073.
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Linus Pauling: Scientist and Peacemaker. A Centenary Volume (edited by Clifford Mead and Thomas Hager). (BMR) Davenport, D. A. August, 946–948. Linus Pauling: Selected Scientific Papers (World Scientific Series in 20th Century Chemistry, Volume 10) (editor-in-chief Barclay Kamb). (BMR) Davenport, D. A. August, 946–948. Molecules, Miracles, and Medicine (by Andrew Lasslo). (BMR) Geiger, P. July, 805–806. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman). (BMR) Harris, H. H. January, 35. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition (by J. K. Akitt and B. E. Mann). (BMR) Mehta, M. June, 677. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition (by Karl Heinrich Lieser). (BMR) Keedy, C. R. January, 35–36. Redox Redux: Recommendations for Improving Textbook and IUPAC Definitions. Vitz, E. March, 397– 400. A Serious but Not Ponderous Book about Nuclear Energy (by Walter Scheider. (BMR) Geiger, P. March, 314–315. Statistical Mechanics: A Concise Introduction for Chemists (by Benjamin Widom). (BMR) Kovac, J. D. November, 1322. Stereochemistry (by David G. Morris). (BMR) Crouch, R. D. February, 167. Stratospheric Ozone Depletion (by Ann M. Middlebrook and Margaret A. Tolbert). (BMR) Williams, E. T. April, 433–434. Summer Reading. Kovac, J. D.; Pagni, R. M.; Harris, H. H.; Coppola, B. P. June, 648–659. Survival Guide for Physical Chemistry (by Michelle Francl). (BMR) Elrod, M. J. September, 1074–1075. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) Bernal, P. J. September, 1075–1076. Transition Metal Carbonyl Cluster Chemistry (by Paul J. Dyson and J. Scott McIndoe). (BMR) Doerrer, L. H. June, 677–678.
Theoretical Chemistry ABMX Spin System Study: From Experimental to Calculated Spectra. Cordier, C.; Thouvenot, R.; Amouri, H.; Gruselle, M. February, 234–238. Fun with Computational Chemistry: Solving Spectral Problems Using Computed 13 C NMR Chemical Shifts. A Comparison of Empirical and Quantum Mechanical Methods. Tilley, L. J.; Prevoir, S. J.; Forsyth, D. A. May, 593–600. Have Orbitals Really Been Observed? (re J. Chem. Educ. 2001, 78, 877). (Letter) Scerri, E. R. March, 310. Hydrogen Molecular Ion Revisited. Grivet, J. January, 127–132. Introduction to Quantum Mechanics in Chemistry (by Mark A. Ratner and George C. Schatz). (BMR) Pounds, A. April, 434–435. Nature: Evidence for Quantized Gravitational States of the Neutron. (ROJNature) Rioux, F. December, 1404–1406. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. April, 429–430. Response to Lowe’s Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. April, 430–431. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Rioux, F.; DeKock, R. L. January, 29–30. Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155–156). (Letter) Lowe, J. P. January, 30–31. Symmetry Groups of Two Nonrigid Molecules. (ACL) Kettle, S. F. February, 258–263. Understanding and Interpreting Molecular Electron Density Distributions. Matta, C. F.; Gillespie, R. J. September, 1141–1152.
Thermal Analysis Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505. Synthesis and Spectral and Thermal Properties of Pyrazine-bridged Coordination Polymers of Copper(II) Nitrate: An Experiment for Advanced Undergraduates. Otieno, T.; Hutchison, A. R.; Krepps, M. K.; Atwood, D. A. November, 1355–1357.
Thermodynamics Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution. Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. July, 869–873. Binding Constant for Complexation of Bilirubin to Bovine Serum Albumin. An Experiment for the Biophysical Chemistry Laboratory. Williams, K. R.; Adhyaru, B.; Pierce, R. E.; Schulman, S. G. January, 115–116. Chemically Relevant Model for Teaching the Second Law of Thermodynamics. Williamson, B. E.; Morikawa, T. March, 339–342. Correction to “Achieving Absolute Negative Pressures in Liquids: Precipitation Phenomena in Solution” (re J. Chem. Educ. 2002, 79, 869). (Correction) Visak, Z. P.; Rebelo, L. P.; Szydlowski, J. October, 1203. Disorder—A Cracked Crutch for Supporting Entropy Discussions. Lambert, F. L. February, 187–192. Energy as Money, Chemical Bonding as Business, and Negative ∆H and ∆G as Investment. (AA) Kozliak, E. I. December, 1435–1436. Entropy Explained: The Origin of Some Simple Trends. Watson, L.; Eisenstein, O. October, 1269–1277. Entropy Is Simple, Qualitatively. Lambert, F. L. October, 1241–1246. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126. Equations of State and Phase Diagrams. Glasser, L. July, 874–876. First Law of Thermodynamics; Irreversible and Reversible Processes. Craig, N. C.; Gislason, E. A. February, 193–200. Glycolysis in Wonderland: The Importance of Energy Dissipation in Metabolic Pathways. Aledo, J. C.; Esteban del Valle, A. November, 1336–1339. H Is for Enthalpy, Thanks to Heike Kamerlingh Onnes and Alfred W. Porter. Howard, I. K. June, 697–698. Hydrogen Bonding Using NMR: A New Look at the 2,4Pentanedione Keto–Enol Tautomer Experiment. Grushow, A.; Zielinski, T. J. June, 707–714. Lead–Acid Battery: Its Voltage in Theory and Practice. Treptow, R. S. March, 334–338. Notes on the Early History of the Interaction between Physical Chemistry and Biochemistry: The Development of Physical Biochemistry. Guzmán-Casado, M.; Parody-Morreale, A. March, 327–331. Partial Molar Volumes from Refractive Index Measurements. Fucaloro, A. F. July, 865–868. Problem Solving in Physical Chemistry with the TI-89 Calculator. Menezes, W. J. December, 1465–1466. Rapid Microdetermination of Partial Molar and Excess Molar Volumes. (ML) Lunelli, B.; Scagnolari, F. May, 626–628. Rubber Bands, Free Energy, and Le Châtelier’s Principle. (JCE Classroom Activity) Hirsch, W. February, 200A– 200B. Second Law: Statement and Applications. Infelta, P. July, 884–888. Some Aspects of Rubberlike Elasticity Useful in Teaching Basic Concepts in Physical Chemistry. Mark, J. E. December, 1437–1443. Statistical Study of Distribution Diagrams for Two-Component Systems: Relationships of Means and Variances of the Discrete Variable Distributions with Average Ligand Number and Intrinsic Buffer Capacity. MoyaHernández, R.; Rueda-Jackson, J. C.; Ramírez, M. T.; Vázquez, G. A.; Havel, J.; Rojas-Hernández, A. March, 389–392. Structural Studies of Phycobiliproteins from Spirulina: Combining Spectroscopy, Thermodynamics, and Molecular Modeling in an Undergraduate Biochemistry Experiment. Taylor, A. T.; Feller, S. E. December, 1467–1470. Thermodynamics and Statistical Mechanics (by John M. Seddon and Julian D. Gale). (BMR) Bernal, P. J. September, 1075–1076. Understanding of Elementary Concepts in Heat and Temperature among College Students and K–12 Teachers. (CER) Jasien, P. G.; Oberem, G. E. July, 889–895. Using Latex Elastomer to Illustrate Euler’s Chain Relationship. Hilgeman, F. R.; Alcaraz, A. A. January, 78–80. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part I: Equations of State. Smith, C. B. December, 1444–1452. Using Rubber-Elastic Material–Ideal Gas Analogies to Teach Introductory Thermodynamics. Part II: The Laws of Thermodynamics. Smith, C. B. December, 1453–1461.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Titration/Titrimetry Chemical Speciation: A Guide to Understand Titrimetric Analysis. Liyanage, J. A.; Janaratne, T. May, 635– 636. Coulometric Titrations in Wine Samples: Studies on the Determination of S(IV) and the Formation of Adducts. Lowinsohn, D.; Bertotti, M. January, 103–105. Experimental Design and Multiplexed Modeling Using Titrimetry and Spreadsheets. Harrington, P. d.; Kolbrich, E.; Cline, J. July, 863–864. General Approach for Calculating Speciation and Poising Capacity of Redox Systems with Multiple Oxidation States: Application to Redox Titrations and the Generation of pε–pH Diagrams. King, D. W. September, 1135–1140. Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Microscale pH Titrations Using an Automatic Pipet. (ML) Flint, E. B.; Kortz, C. L.; Taylor, M. A. June, 705–706. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Roberts, J. L. Jr. August, 941. Precision in Microscale Titration (re J. Chem. Educ. 2000, 77, 625). (Letter) Singh, M. M.; McGowan, C. B.; Szafran, Z. August, 941.
Topics in Chemical Instrumentation New Start to Advanced Analytical Laboratory: Comparison of the Performance Characteristics of Various Instruments. (TICI) Edmiston, P. L. May, 616–618. Smart-Laser-Based Calorimeter. (TICI) Schneider, T.; Politi, M. J.; Baptista, M. S. April, 503–505.
Transition Elements Ligand Field Theory and Its Applications (by Brian N. Figgis and Michael A. Hitchman). (BMR) Turner, J. F. September, 1072–1073. Preparation of Aniline Derivatives: An Advanced Undergraduate Laboratory Experiment Exploring Catalytic and Stoichiometric Reaction Methodologies. Colom, J.; Llobet, A.; Pla-Quintana, A.; Roglans, A. June, 731–734. Simple Measurement of Magnetic Susceptibility with a Small Permanent Magnet and a Top-Loading Electronic Balance. (CET) Itami, Y.; Sone, K. August, 1002–1004.
Undergraduate Research Academic Excellence (edited by Michael P. Doyle). (BMR) Mohrig, J. R. February, 165–166. Academic Excellence—The Role of Research. 2002 George C. Pimentel Award. (Award Address) Doyle, M. P. September, 1038–1044. ACS National Meeting: Boston, August 18–22 2002. Undergraduate Program and High School Program. August, 904–905. ACS National Meeting: Orlando, April 7–11, 2002. Undergraduate Program. March, 294. Chemical Analysis Using Scanning Force Microscopy. An Undergraduate Laboratory Experiment. Maye, M. M.; Luo, J.; Han, L.; Zhong, C. February, 207–210. Classroom Research: GC Studies of Linoleic and Linolenic Fatty Acids Found in French Fries. (2AP) Crowley, J. P.; DeBoise, K. L.; Marshall, M. R.; Shaffer, H. M.; Zafar, S.; Jones, K. A.; Palko, N. R.; Mitsch, S. M.; Sutton, L. A.; Chang, M.; Fromer, I.; Kraft, J.; Meister, J.; Shah, A.; Tan, P.; Whitchurch, J. July, 824–827. Determination of the Rotameric Stability of 1,2Dihaloethanes Using Infrared Spectroscopy. A Combined Experimental and Computational Project for the Physical Chemistry Laboratory. Wladkowski, B. D.; Broadwater, S. J. February, 230–233. Effect of Anisotropy on the Chemical Shift of Vinyl Protons in trans- and cis-1,2-Dibenzoylethylenes. A SmallGroup or Recitation Activity. Shaw, R.; Roane, D.; Nedd, S. January, 67–69. Entropy Loss of Hydroxyl Groups of Balanol upon Binding to Protein Kinase A. Gidofalvi, G.; Wong, C. F.; McCammon, J. A. September, 1122–1126.
Volume 79 • 2002 • Subject Index Introducing Freshmen Students to the Practice of SolidPhase Synthesis. Taralp, A.; Türkseven, C. H.; Çakmak, A. Ö.; Çengel, Ö. January, 87–89. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Molecular Modeling and Computational Chemistry at Humboldt State University. (NSF) Paselk, R. A.; Zoellner, R. W. October, 1192–1195. Preparing Students for Research: Synthesis of Substituted Chalcones as a Comprehensive Guided-Inquiry Experience. Vyvyan, J. R.; Pavia, D. L.; Lampman, G. M.; Kriz, G. S. September, 1119–1121. “Real-Time” Chemistry and Chemical Education. (Commentary) Ellis, A. B. September, 1034–1035. Research Is to Teaching …. (Letter) Karp, S. March, 310. Research with First- and Second-Year Undergraduates: A New Model for Undergraduate Inquiry at Research Universities. Hutchison, A. R.; Atwood, D. A. January, 125–126. Research/Teaching Partnerships. (Editorial) Moore, J. W. September, 1031. Small Scale Reactor for Ultraviolet Photochemistry. (CET) Gano, J. E.; Gano, A. J.; Garry, P.; Sekher, P. November, 1361. Techniques in Chemistry: The Centerpiece of a ResearchOriented Curriculum. Hanks, T. W.; Wright, L. L. September, 1127–1130. Utilization of SciFinder Scholar at an Undergraduate Institution. (CII) O’Reilly, S. A.; Wilson, A. M.; Howes, B. April, 524–526.
UV-Vis Spectroscopy Chemistry of Optical Discs. (POC) Birkett, D. September, 1081–1087. Collaboration between Chemistry and Biology to Introduce Spectroscopy, Electrophoresis, and Molecular Biology as Tools for Biochemistry. (NSF) Bevilacqua, V. L.; Powers, J. L.; Vogelien, D. L.; Rascati, R. J.; Hall, M.; Diehl, K.; Tran, C.; Jain, S. S.; Chabayta, R. November, 1311–1313. Colorful Azulene and Its Equally Colorful Derivatives. Liu, R. S. February, 183–185. Cost-Effective Spectroscopic Instrumentation for the Physical Chemistry Laboratory. (CET) Lorigan, G. A.; Patterson, B. M.; Sommer, A. J.; Danielson, N. D. October, 1264–1266. Exploring the Diffraction Grating Using a He–Ne Laser and a CD-ROM. (TD) Tellinghuisen, J. June, 703– 704. Film Canister Colorimeter. (CET) Gordon, J. S.; James, A.; Harman, S.; Weiss, K. August, 1005–1006. Graduated Cylinder Colorimeter: An Investigation of Path Length and the Beer–Lambert Law. Gordon, J. S.; Harman, S. May, 611–612. Measurement of the Index of Refraction of Solids by UV–Vis Spectroscopy. Bozlee, B. J.; Exharos, G. J.; Jimenez, A. E.; van Swam, S. L. May, 619–622. Photochemotherapy: Light-Dependent Therapies in Medicine. (POC) Zovinka, E. P.; Sunseri, D. R. November, 1331–1335. Spectrophotometric Determination of Total Sulfite in White Wine Samples Using Crude Extracts from Flowers. Soares, M. H.; Ramos, L. A.; Cavalheiro, É. T. September, 1111–1113. Structure–Activity Investigation of Photosynthetic Electron Transport. An Interdisciplinary Experiment for the First-Year Laboratory. Karukstis, K. K.; Van Hecke, G. R.; Roth, K. A.; Burden, M. A. August, 985–988. Teaching Molecular Applications of the Particle-in-aRing Model Using Azulene. Castanho, M. A. September, 1092. Visible Spectrum of Liquid Oxygen in the General Chemistry Laboratory. Nyasulu, F.; Macklin, J.; Cusworth, W. March, 356–359.
Vitamins Chemical Demonstrations with Consumer Chemicals: The Black and White Reaction. (TD) Wright, S. W. January, 44–46.
Microscale Determination of Vitamin C by Weight Titrimetry. (ACL) East, G. A.; Nascimento, E. C. January, 100–102. Tick Tock, a Vitamin C Clock. (JCE Classroom Activity) Wright, S. W. January, 40A–40B. Vitamin C Clock Reaction. (TD) Wright, S. W. January, 41–43.
Water/Water Chemistry Aqueous-Phase Palladium-Catalyzed Coupling. A Green Chemistry Laboratory Experiment. Harper, B. A.; Rainwater, J. C.; Birdwhistell, K. R.; Knight, D. A. June, 729–731. Editor’s Note about “A Three-Dimensional Model for Water” by J. L. H. Johnson and S. H. Yalkowsky (re J. Chem. Educ. 2002, 79, 1088–1090). (TD) Vitz, E. September, 1091. Environmental Chemistry Laboratory for the Determination of a Distribution Coefficient. Dunnivant, F. M.; Kettel, J. June, 715–717. Quantitative Measurement of Bromoform in Swimming Pool Water Using SPME with GC–MS. An Undergraduate Instrumental Analysis Experiment. Hardee, J. R.; Long, J.; Otts, J. May, 633–634. Three-Dimensional Model for Water. (TD) Johnson, J. L.; Yalkowsky, S. H. September, 1088–1090.
Women in Chemistry Flickering Clusters: Women, Science, and Collaborative Transformations (edited by Cheryl Ney, Jacqueline Ross, and Laura Stempel). (BMR) Chapman, S. August, 943–944. Gender Equity in Science—Who Cares? (Commentary) Li, L. April, 418–419. A Long Way to Go. (Editorial) Moore, J. W. April, 407.
Writing in Chemistry FLASH Consortium. (2YC3) Magner, J. T.; Chadwick, J. E.; Chickering, J.; Collins, C.; Su, T.; Villarba, M. May, 544–547. Introduction to the Use of Primary Organic Chemistry Literature in an Honors Sophomore-Level Organic Chemistry Course. (CII) Gallagher, G. J.; Adams, D. L. November, 1368–1371. Learning Chemistry Research outside the Laboratory: Novel Graduate and Undergraduate Courses in Research Methodology. Schildcrout, S. M. November, 1340–1343. Multi-Initiative Dissemination Project: Active-Learning Strategies for College Chemistry. Burke, K. A.; Greenbowe, T. J.; Lewis, E.; Peace, G. E. June, 699.
X-ray Crystallography Correspondence with Sir Lawrence Bragg Regarding Evidence for the Ionic Bond. Craig, N. C. August, 953– 955. Crystal Models Made from Clear Plastic Boxes and Their Use in Determining Avogadro’s Number. (SSC) Bindel, T. H. April, 468–472. Integrating Single Crystal X-Ray Diffraction in the Undergraduate Curriculum. (NSF) Hoggard, P. E. April, 420–421. Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104.
Xenon Determination of the Natural Abundances of Krypton and Xenon Isotopes Using Mass Spectrometry: A Demonstration of Isotopes and the Basis of Atomic Mass. Blauch, D. N.; Schuh, M. D.; Carroll, F. A. May, 584–587.
Ytterbium Synthesis and Characterization of Nanocrystalline Y2O3:Eu3+ Phosphor. An Upper-Division Inorganic Chemistry Laboratory. Bolstad, D. B.; Diaz, A. L. September, 1101–1104.
JChemEd.chem.wisc.edu • Vol. 79 No. 12 December 2002 • Journal of Chemical Education
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Book Review Index • Volume 79 • 2002
JCE Online Index: http://JChemEd.chem.wisc.edu
Book Review Index* Book Titles ABCs of FT-NMR by J. D. Roberts. (J. H. Shibata) November, 1324–1325. Academic Excellence edited by M. P. Doyle. (J. R. Mohrig) February, 165–166. Analytical Chemistry in a GMP Environment: A Practical Guide edited by J. M. Miller and J. B. Crowther. (D. T. Harvey) December, 1419. Applications of Inorganic Mass Spectrometry by J. R. de Laeter. (B. Boggess) October, 1206–1207. Applied Polymer Science: 21st Century edited by D. Craver and C. E. Carraher Jr.. (S. B. Allin) August, 942. Biochemistry of Signal Transduction and Regulation, 2nd Edition by G. Krauss. (V. Minderhout) November, 1321–1322. Bridging to the Lab [CD-ROM] by L. Jones and R. Tasker. (W. Conover) June, 679–680. Carbohydrates: The Sweet Molecules of Life by R. V. Stick. (E. E. Gooch) May, 562–563. Chemical Kinetics and Catalysis by R. I. Masel. (R. M. Pagni) March, 313. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 by American Chemical Society and ACS Board–Council Committee on Chemical Safety. (L. Keith-Lucas) March, 315–316. Chemical Sciences in the 20th Century: Bridging Boundaries edited by C. Reinhardt. (P. J. Bernal) April, 433. Chemistry, 2nd Edition by R. Lewis and W. Evans. (W. Conover) April, 437–438. Chemistry CD by B. C. Sanctuary. (J. K. Steehler) February, 166. Chemistry for the 21st Century edited by E. Keinan and I. Schechter. (J. E. Earley) January, 33. Chemistry, Society, and Environment. A New History of the British Chemical Industry edited by C. A. Russell. (C. Stanitski) May, 563–564. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives by H. Hopf. (R. Magid) January, 34. Drugs and the Human Body: With Implications for Society, 6th Edition by K. Liska. (D. J. Schedler) July, 805. Effects of Changing Climate on Weather and Human Activities by K. E. Trenberth, K. Miller, L. Mearns, and S. Rhodes. (E. T. Williams) April, 433–434. Everybody Wins! 2nd Edition by G. Cain. (M. Caswell) May, 561. Experiments in Organic Chemistry, 2nd Edition by R. K. Hill and J. Barbaro. (E. E. Gooch) November, 1320–1321. Flickering Clusters: Women, Science, and Collaborative Transformations edited by C. Ney, J. Ross, and L. Stempel. (S. Chapman) August, 943–944. Foundations of Chemistry: Special Issue on the Periodic System edited by E. R. Scerri. (P. J. Bernal) December, 1420. From Coello to Inorganic Chemistry: A Lifetime of Reactions by F. Basolo. (A. L. Crumbliss) October, 1206. Functional Group Chemistry by J. R. Hanson. (J. M. Karty) June, 678–679. Fundamentals of Electroanalytical Chemistry by P. M. Monk. (D. L. Langhus) October, 1207–1208. FX Chem 2 by Efofex Software. (R. W. Clark) December, 1421–1422. The Genie in the Bottle by J. Schwarcz. (J. D. Kovac) March, 316. Green Plastics: An Introduction to the New Science of Biodegradable Plastics by E. S. Stevens. (C. B. Frech) September, 1072. A Guide to Classroom Instruction for Adjunct Faculty by J. Reed. (J. M. Karty) November, 1325–1326. Heterocyclic Chemistry by M. Sainsbury. (R. M. Pagni) September, 1073–1074. Holleman-Wiberg’s Inorganic Chemistry edited by N. Wiberg. (W. B. Jensen) August, 944–946. Introduction to Quantum Mechanics in Chemistry by M. A. Ratner and G. C. Schatz. (A. Pounds) April, 434–435.
*The Book Review Index is divided into Book Titles, Book Authors, and Book Reviewers. Listings include book title, book author, (book reviewer), month, and page number.
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Introduction to Synthetic Polymers, 2nd Edition by I. M. Campbell. (D. Waldow) May, 561–562. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets by E. V. Mielczarek and S. B. McGrayne. (L. H. Doerrer) July, 806–807. Ligand Field Theory and Its Applications by B. N. Figgis and M. A. Hitchman. (J. F. Turner) September, 1072– 1073. Linus Pauling: Scientist and Peacemaker. A Centenary Volume edited by C. Mead and T. Hager. (D. A. Davenport) August, 946–948. Linus Pauling: Selected Scientific Papers edited by B. Kamb. (D. A. Davenport) August, 946–948. Molecules, Miracles, and Medicine by A. Lasslo. (P. Geiger) July, 805–806. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment by J. P. Collman. (H. H. Harris) January, 35. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition by J. K. Akitt and B. E. Mann. (M. Mehta) June, 677. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition by K. H. Lieser. (C. R. Keedy) January, 35–36. Oligosaccharides: Their Synthesis and Biological Roles by H. Osborn and T. Kahn. (M. C. Shelton) May, 562. Optics Demonstrations on the Overhead Projector by D. S. Goodman. (D. Kolb) April, 436–437. Organic Structures from Spectra by L. Field, S. Sternhell, and J. R. Kalman. (A. M. Rosan) November, 1323– 1324. Oxygen by C. Djerassi and R. Hoffmann. (J. D. Kovac) April, 436. Profiles in Science: The Linus Pauling Papers by National Library of Medicine. (D. A. Davenport) August, 946– 948. The Research Notebooks of Linus Pauling by Oregon State University Special Collections. (D. A. Davenport) August, 946–948. The Science of Chocolate by S. T. Beckett. (J. D. Kovac) February, 167–168. A Serious but Not Ponderous Book about Nuclear Energy by W. Scheider. (P. Geiger) March, 314–315. Spectroscopy for Schools and Colleges [CD-ROM] by Royal Society of Chemistry and GlaxoWellcome. (T. H. Eberlein) October, 1204–1205. Statistical Mechanics: A Concise Introduction for Chemists by B. Widom. (J. D. Kovac) November, 1322. Stereochemistry by D. G. Morris. (R. D. Crouch) February, 167. Stratospheric Ozone Depletion by A. M. Middlebrook and M. A. Tolbert. (E. T. Williams) April, 433–434. Survival Guide for Physical Chemistry by M. Francl. (M. J. Elrod) September, 1074–1075. Thermodynamics and Statistical Mechanics by J. M. Seddon and J. D. Gale. (P. J. Bernal) September, 1075–1076. Thinkwell’s Chemistry by D. Harmon, G. Yee, and T. Sammakia. (P. M. Smith) July, 807–808. Transition Metal Carbonyl Cluster Chemistry by P. J. Dyson and J. S. McIndoe. (L. H. Doerrer) June, 677– 678. Uncle Tungsten: Memories of a Chemical Boyhood by O. Sacks. (A. T. Schwartz) March, 312.
Book Authors ACS Board–Council Committee on Chemical Safety; American Chemical Society. Chemical Safety for Teachers and Their Supervisors, Grades 7–12. (L. Keith-Lucas) March, 315–316. Akitt, J. K.; Mann, B. E. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition. (M. Mehta) June, 677. American Chemical Society; ACS Board–Council Committee on Chemical Safety. Chemical Safety for Teachers and Their Supervisors, Grades 7–12. (L. KeithLucas) March, 315–316. Barbaro, J.; Hill, R. K. Experiments in Organic Chemistry, 2nd Edition. (E. E. Gooch) November, 1320– 1321. Basolo, F. From Coello to Inorganic Chemistry: A Lifetime of Reactions. (A. L. Crumbliss) October, 1206. Beckett, S. T. The Science of Chocolate. (J. D. Kovac) February, 167–168. Cain, G. Everybody Wins! 2nd Edition. (M. Caswell) May, 561.
Campbell, I. M. Introduction to Synthetic Polymers, 2nd Edition. (D. Waldow) May, 561–562. Carraher, C. E. Jr.; Craver D., Eds. Applied Polymer Science: 21st Century. (S. B. Allin) August, 942. Collman, J. P. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment. (H. H. Harris) January, 35. Craver D.; Carraher, C. E. Jr., Eds. Applied Polymer Science: 21st Century. (S. B. Allin) August, 942. Crowther, J. B.; Miller, J. M., Eds. Analytical Chemistry in a GMP Environment: A Practical Guide. (D. T. Harvey) December, 1419. de Laeter, J. R. Applications of Inorganic Mass Spectrometry. (B. Boggess) October, 1206–1207. Djerassi, C.; Hoffmann, R. Oxygen. (J. D. Kovac) April, 436. Doyle, M. P., Ed. Academic Excellence. (J. R. Mohrig) February, 165–166. Dyson, P. J.; McIndoe, J. S. Transition Metal Carbonyl Cluster Chemistry. (L. H. Doerrer) June, 677–678. Efofex Software. FX Chem 2. (R. W. Clark) December, 1421–1422. Evans, W.; Lewis, R. Chemistry, 2nd Edition. (W. Conover) April, 437–438. Field, L.; Sternhell, S.; Kalman, J. R. Organic Structures from Spectra. (A. M. Rosan) November, 1323–1324. Figgis, B. N.; Hitchman, M. A. Ligand Field Theory and Its Applications. (J. F. Turner) September, 1072–1073. Francl, M. Survival Guide for Physical Chemistry. (M. J. Elrod) September, 1074–1075. Gale, J. D.; Seddon, J. M. Thermodynamics and Statistical Mechanics. (P. J. Bernal) September, 1075–1076. GlaxoWellcome; Royal Society of Chemistry. Spectroscopy for Schools and Colleges [CD-ROM]. (T. H. Eberlein) October, 1204–1205. Goodman, D. S. Optics Demonstrations on the Overhead Projector. (D. Kolb) April, 436–437. Hager, T.; Mead, C., Eds. Linus Pauling: Scientist and Peacemaker. A Centenary Volume. (D. A. Davenport) August, 946–948. Hanson, J. R. Functional Group Chemistry. (J. M. Karty) June, 678–679. Harmon, D.; Yee, G.; Sammakia, T. Thinkwell’s Chemistry. (P. M. Smith) July, 807–808. Hill, R. K.; Barbaro, J. Experiments in Organic Chemistry, 2nd Edition. (E. E. Gooch) November, 1320– 1321. Hitchman, M. A.; Figgis, B. N. Ligand Field Theory and Its Applications. (J. F. Turner) September, 1072–1073. Hoffmann, R.; Djerassi, C. Oxygen. (J. D. Kovac) April, 436. Hopf, H. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives. (R. Magid) January, 34. Jones, L.; Tasker, R. Bridging to the Lab [CD-ROM]. (W. Conover) June, 679–680. Kahn, T.; Osborn, H. Oligosaccharides: Their Synthesis and Biological Roles. (M. C. Shelton) May, 562. Kalman, J. R.; Field, L.; Sternhell, S. Organic Structures from Spectra. (A. M. Rosan) November, 1323–1324. Kamb, B., Ed. Linus Pauling: Selected Scientific Papers. (D. A. Davenport) August, 946–948. Keinan, E.; Schechter, I., Eds. Chemistry for the 21st Century. (J. E. Earley) January, 33. Krauss, G. Biochemistry of Signal Transduction and Regulation, 2nd Edition. (V. Minderhout) November, 1321–1322. Lasslo, A. Molecules, Miracles, and Medicine. (P. Geiger) July, 805–806. Lewis, R.; Evans, W. Chemistry, 2nd Edition. (W. Conover) April, 437–438. Lieser, K. H. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition. (C. R. Keedy) January, 35–36. Liska, K. Drugs and the Human Body: With Implications for Society, 6th Edition. (D. J. Schedler) July, 805. Mann, B. E.; Akitt, J. K. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition. (M. Mehta) June, 677. Masel, R. I. Chemical Kinetics and Catalysis. (R. M. Pagni) March, 313. McGrayne, S. B.; Mielczarek, E. V. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets. (L. H. Doerrer) July, 806–807. McIndoe, J. S.; Dyson, P. J. Transition Metal Carbonyl Cluster Chemistry. (L. H. Doerrer) June, 677–678. Mead, C.; Hager, T., Eds. Linus Pauling: Scientist and Peacemaker. A Centenary Volume. (D. A. Davenport) August, 946–948.
Journal of Chemical Education • Vol. 79 No. 12 December 2002 • JChemEd.chem.wisc.edu
/Journal/Search/index.html Mearns, L.; Trenberth, K. E.; Miller, K.; Rhodes, S. Effects of Changing Climate on Weather and Human Activities. (E. T. Williams) April, 433–434. Middlebrook, A. M.; Tolbert, M. A. Stratospheric Ozone Depletion. (E. T. Williams) April, 433–434. Mielczarek, E. V.; McGrayne, S. B. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets. (L. H. Doerrer) July, 806–807. Miller, J. M.; Crowther, J. B., Eds. Analytical Chemistry in a GMP Environment: A Practical Guide. (D. T. Harvey) December, 1419. Miller, K.; Trenberth, K. E.; Mearns, L.; Rhodes, S. Effects of Changing Climate on Weather and Human Activities. (E. T. Williams) April, 433–434. Monk, P. M. Fundamentals of Electroanalytical Chemistry. (D. L. Langhus) October, 1207–1208. Morris, D. G. Stereochemistry. (R. D. Crouch) February, 167. National Library of Medicine. Profiles in Science: The Linus Pauling Papers. (D. A. Davenport) August, 946– 948. Ney, C.; Ross, J.; Stempel, L., Eds. Flickering Clusters: Women, Science, and Collaborative Transformations. (S. Chapman) August, 943–944. Oregon State University Special Collections. The Research Notebooks of Linus Pauling. (D. A. Davenport) August, 946–948. Osborn, H.; Kahn, T. Oligosaccharides: Their Synthesis and Biological Roles. (M. C. Shelton) May, 562. Ratner, M. A.; Schatz, G. C. Introduction to Quantum Mechanics in Chemistry. (A. Pounds) April, 434–435. Reed, J. A Guide to Classroom Instruction for Adjunct Faculty. (J. M. Karty) November, 1325–1326. Reinhardt, C., Ed. Chemical Sciences in the 20th Century: Bridging Boundaries. (P. J. Bernal) April, 433. Rhodes, S.; Trenberth, K. E.; Miller, K.; Mearns, L. Effects of Changing Climate on Weather and Human Activities. (E. T. Williams) April, 433–434. Roberts, J. D. ABCs of FT-NMR. (J. H. Shibata) November, 1324–1325. Ross, J.; Ney, C.; Stempel, L., Eds. Flickering Clusters: Women, Science, and Collaborative Transformations. (S. Chapman) August, 943–944. Royal Society of Chemistry; GlaxoWellcome. Spectroscopy for Schools and Colleges [CD-ROM]. (T. H. Eberlein) October, 1204–1205. Russell, C. A., Ed. Chemistry, Society, and Environment. A New History of the British Chemical Industry. (C. Stanitski) May, 563–564. Sacks, O. Uncle Tungsten: Memories of a Chemical Boyhood. (A. T. Schwartz) March, 312. Sainsbury, M. Heterocyclic Chemistry. (R. M. Pagni) September, 1073–1074. Sammakia, T.; Harmon, D.; Yee, G. Thinkwell’s Chemistry. (P. M. Smith) July, 807–808. Sanctuary, B. C. Chemistry CD. (J. K. Steehler) February, 166. Scerri, E. R., Ed. Foundations of Chemistry: Special Issue on the Periodic System. (P. J. Bernal) December, 1420. Schatz, G. C.; Ratner, M. A. Introduction to Quantum Mechanics in Chemistry. (A. Pounds) April, 434–435. Schechter, I.; Keinan, E., Eds. Chemistry for the 21st Century. (J. E. Earley) January, 33. Scheider, W. A Serious but Not Ponderous Book about Nuclear Energy. (P. Geiger) March, 314–315. Schwarcz, J. The Genie in the Bottle. (J. D. Kovac) March, 316. Seddon, J. M.; Gale, J. D. Thermodynamics and Statistical Mechanics. (P. J. Bernal) September, 1075–1076. Stempel, L.; Ney, C.; Ross, J., Eds. Flickering Clusters: Women, Science, and Collaborative Transformations. (S. Chapman) August, 943–944. Sternhell, S.; Field, L.; Kalman, J. R. Organic Structures from Spectra. (A. M. Rosan) November, 1323–1324. Stevens, E. S. Green Plastics: An Introduction to the New Science of Biodegradable Plastics. (C. B. Frech) September, 1072. Stick, R. V. Carbohydrates: The Sweet Molecules of Life. (E. E. Gooch) May, 562–563.
Volume 79 • 2002 • Book Review Index Tasker, R.; Jones, L. Bridging to the Lab [CD-ROM]. (W. Conover) June, 679–680. Tolbert, M. A.; Middlebrook, A. M. Stratospheric Ozone Depletion. (E. T. Williams) April, 433–434. Trenberth, K. E.; Miller, K.; Mearns, L.; Rhodes, S. Effects of Changing Climate on Weather and Human Activities. (E. T. Williams) April, 433–434. Wiberg, N., Ed. Holleman-Wiberg’s Inorganic Chemistry. (W. B. Jensen) August, 944–946. Widom, B. Statistical Mechanics: A Concise Introduction for Chemists. (J. D. Kovac) November, 1322. Yee, G.; Harmon, D.; Sammakia, T. Thinkwell’s Chemistry. (P. M. Smith) July, 807–808.
Book Reviewers Allin, S. B. Applied Polymer Science: 21st Century edited by D. Craver and C. E. Carraher Jr.. August, 942. Bernal, P. J. Chemical Sciences in the 20th Century: Bridging Boundaries edited by C. Reinhardt. April, 433. Bernal, P. J. Foundations of Chemistry: Special Issue on the Periodic System edited by E. R. Scerri. December, 1420. Bernal, P. J. Thermodynamics and Statistical Mechanics by J. M. Seddon and J. D. Gale. September, 1075– 1076. Boggess, B. Applications of Inorganic Mass Spectrometry by J. R. de Laeter. October, 1206–1207. Caswell, M. Everybody Wins! 2nd Edition by G. Cain. May, 561. Chapman, S. Flickering Clusters: Women, Science, and Collaborative Transformations edited by C. Ney, J. Ross, and L. Stempel. August, 943–944. Clark, R. W. FX Chem 2 by Efofex Software. December, 1421–1422. Conover, W. Bridging to the Lab [CD-ROM] by L. Jones and R. Tasker. June, 679–680. Conover, W. Chemistry, 2nd Edition by R. Lewis and W. Evans. April, 437–438. Crouch, R. D. Stereochemistry by D. G. Morris. February, 167. Crumbliss, A. L. From Coello to Inorganic Chemistry: A Lifetime of Reactions by F. Basolo. October, 1206. Davenport, D. A. Linus Pauling: Scientist and Peacemaker. A Centenary Volume edited by C. Mead and T. Hager. August, 946–948. Davenport, D. A. Linus Pauling: Selected Scientific Papers edited by B. Kamb. August, 946–948. Davenport, D. A. Profiles in Science: The Linus Pauling Papers by National Library of Medicine. August, 946– 948. Davenport, D. A. The Research Notebooks of Linus Pauling by Oregon State University Special Collections. August, 946–948. Doerrer, L. H. Iron, Nature’s Universal Element: Why People Need Iron and Animals Make Magnets by E. V. Mielczarek and S. B. McGrayne. July, 806–807. Doerrer, L. H. Transition Metal Carbonyl Cluster Chemistry by P. J. Dyson and J. S. McIndoe. June, 677–678. Earley, J. E. Chemistry for the 21st Century edited by E. Keinan and I. Schechter. January, 33. Eberlein, T. H. Spectroscopy for Schools and Colleges [CD-ROM] by Royal Society of Chemistry and GlaxoWellcome. October, 1204–1205. Elrod, M. J. Survival Guide for Physical Chemistry by M. Francl. September, 1074–1075. Frech, C. B. Green Plastics: An Introduction to the New Science of Biodegradable Plastics by E. S. Stevens. September, 1072. Geiger, P. Molecules, Miracles, and Medicine by A. Lasslo. July, 805–806. Geiger, P. A Serious but Not Ponderous Book about Nuclear Energy by W. Scheider. March, 314–315. Gooch, E. E. Carbohydrates: The Sweet Molecules of Life by R. V. Stick. May, 562–563. Gooch, E. E. Experiments in Organic Chemistry, 2nd Edition by R. K. Hill and J. Barbaro. November, 1320–1321.
Harris, H. H. Naturally Dangerous: Surprising Facts about Food, Health, and the Environment by J. P. Collman. January, 35. Harvey, D. T. Analytical Chemistry in a GMP Environment: A Practical Guide edited by J. M. Miller and J. B. Crowther. December, 1419. Jensen, W. B. Holleman-Wiberg’s Inorganic Chemistry edited by N. Wiberg. August, 944–946. Karty, J. M. Functional Group Chemistry by J. R. Hanson. June, 678–679. Karty, J. M. A Guide to Classroom Instruction for Adjunct Faculty by J. Reed. November, 1325–1326. Keedy, C. R. Nuclear and Radiochemistry: Fundamentals and Applications, 2nd, Revised Edition by K. H. Lieser. January, 35–36. Keith-Lucas, L. Chemical Safety for Teachers and Their Supervisors, Grades 7–12 by American Chemical Society and ACS Board–Council Committee on Chemical Safety. March, 315–316. Kolb, D. Optics Demonstrations on the Overhead Projector by D. S. Goodman. April, 436–437. Kovac, J. D. The Genie in the Bottle by J. Schwarcz. March, 316. Kovac, J. D. Oxygen by C. Djerassi and R. Hoffmann. April, 436. Kovac, J. D. The Science of Chocolate by S. T. Beckett. February, 167–168. Kovac, J. D. Statistical Mechanics: A Concise Introduction for Chemists by B. Widom. November, 1322. Langhus, D. L. Fundamentals of Electroanalytical Chemistry by P. M. Monk. October, 1207–1208. Magid, R. Classics in Hydrocarbon Chemistry: Syntheses, Concepts, Perspectives by H. Hopf. January, 34. Mehta, M. NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, 4th Edition by J. K. Akitt and B. E. Mann. June, 677. Minderhout, V. Biochemistry of Signal Transduction and Regulation, 2nd Edition by G. Krauss. November, 1321–1322. Mohrig, J. R. Academic Excellence edited by M. P. Doyle. February, 165–166. Pagni, R. M. Chemical Kinetics and Catalysis by R. I. Masel. March, 313. Pagni, R. M. Heterocyclic Chemistry by M. Sainsbury. September, 1073–1074. Pounds, A. Introduction to Quantum Mechanics in Chemistry by M. A. Ratner and G. C. Schatz. April, 434–435. Rosan, A. M. Organic Structures from Spectra by L. Field, S. Sternhell, and J. R. Kalman. November, 1323–1324. Schedler, D. J. Drugs and the Human Body: With Implications for Society, 6th Edition by K. Liska. July, 805. Schwartz, A. T. Uncle Tungsten: Memories of a Chemical Boyhood by O. Sacks. March, 312. Shelton, M. C. Oligosaccharides: Their Synthesis and Biological Roles by H. Osborn and T. Kahn. May, 562. Shibata, J. H. ABCs of FT-NMR by J. D. Roberts. November, 1324–1325. Smith, P. M. Thinkwell’s Chemistry by D. Harmon, G. Yee, and T. Sammakia. July, 807–808. Stanitski, C. Chemistry, Society, and Environment. A New History of the British Chemical Industry edited by C. A. Russell. May, 563–564. Steehler, J. K. Chemistry CD by B. C. Sanctuary. February, 166. Turner, J. F. Ligand Field Theory and Its Applications by B. N. Figgis and M. A. Hitchman. September, 1072–1073. Waldow, D. Introduction to Synthetic Polymers, 2nd Edition by I. M. Campbell. May, 561–562. Williams, E. T. Effects of Changing Climate on Weather and Human Activities by K. E. Trenberth, K. Miller, L. Mearns, and S. Rhodes. April, 433–434. Williams, E. T. Stratospheric Ozone Depletion by A. M. Middlebrook and M. A. Tolbert. April, 433–434.
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