Standard methods of chemical analysis. Volume 3, instrumental

Standard methods of chemical analysis. Volume 3, instrumental methods, parts a and b (Welcher, Frank J., ed.) I. M. Kolthoff. J. Chem. Educ. , 1967, 4...
6 downloads 0 Views 1MB Size
BOOK REVIEWS out the book one is very much aware of the extensive contributions made by Dr. Garn and his colleagues in these fields. This is indicated by more than 60 crass references to his published work. Interesting parts of the book for new investigators are the sections on Recording, Control and Power Equipment., Apparatus Design, and various types of electronic gadgetry whieh e m be used for detection and control of physical changes. The strength of Dr. Gam's contribution lies in his extensive cataloguing of apparatus designs and technique developments. The principal weakness of the hook is its failure to present an interpretation and an assessment of the results he reports. The various experimental measurements are, in s. sense, treated individually. No substmtisl effort is made to unify them by citing underlying principles. Nor is there any significant attempt to carry the conclusions of one group of

reader. I n some places the book is incorrect and misleading. For example, when referring to Figure VI-15 on p. 218, the author comments that the activation energy for the decomposition of calcium carbonate varies greatly with the composition of the atmosphere (partial pressure of COz in Nd. The author is apparently unaware that rate measurements must he normalized for partial pressure effects before an activation energy is ealcnlated. As an example of a failure to carry concepts from one part of the book to another, the author refea to the w o ~ kof Murray and White and of Holt, Cutler and Wadsworth to elicit the principle that. observed rates of reaction depend upon the surface area of the samples exposed for reaction. He fails to develop the point that this area changes contin~~ously during a reaction. If he had appreciated and developed this point then his readers would expect to obtain a. new set of apparently significant constants for every shape of pile of powdered sample they examine hy DTA, TGA, or EGA techniques. Without this assessment, many unwary readers will continue to attempt to wad significance into experiments which have not been normalized for pressure and interfacial area changes. Many industrial chemists and metallurgists who measure sctivstinn energies of processes to determine how the thl.ooghput of their plant may be increased by iniluencing the temperature coefficient of the reaction rate, will not agree with the typically flippant comment of Dr. Garn that "the determination of activation energies is a popular pastime." Some readers will consider this to be an irresponsible and patronizing attitude on the part of the author. I t is evident in other parts of the book also and it detracts from the normally healthy relstionship between the author and a studious reader. Nevertheless, the strength of this hook in assembling the creative designs of apparatu builders outweighs its de-

A354

/

Journal of Chemical Education

ficiencies and most active workers in the field of thermortndyticd methods will wish to have a. copy of it available. The list of aver 800 references with paper and hook titles is particularly useful for obtaining a specific entry to the rapidly expanding literature a n thermoanalytical methods.

presentation of information for the practical m n l y ~ t . I n spite of the unususl organization Volume 3 will he used as a source of authoritative information and can be recommended as such.

T. R. INGRAHAM Departmentof Energy, Mines, and Resources Ottawa. Canada

I. M. KOLTHOFF Universily of Minnesota Minneapolis

Inorganic Synlheres.

Standard Methods of Chemical Analysir. Volume 3, Inslrumental Methods, Parts A and B Edited by Frank 3. Welcher, Indiana University, Blaomington. 6th ed. D. Van Nastrand Co., Inc., Princeton, New Jersey, 1966. Part A, xviii 974 pp.; Part B, xi 1043 pp. Figs. and tables. 16 X 23.5 cm. $50.

+

+

The present volume like Volume 2 of this classical book is divided into parts A and B bound separately. Volume 3 deals mainly with techniques and should be quite useful to the average analytical chemist, who can hardly he familiar with all of the many instrumental methods, and needs a survey of the field. With so many techniques, adequate coverage can hardly be expected for all or even any, and the ch%ptersvary greatly in length and utility. Some are so short (e. g., mass spectrometry, 8 pages) that they can serve only as an elementary introduction to the subject. Others run to 40 pages or more (e.g., radioisotopes in annlytical chemistry, thin-layer chmmatography! pularography), and some have specific drections, making the chapten of immediate aid to the analyst. Most are provided with references in bibliogrephies, certainly a valuable feature. I n general, the different chapters have been written by recognized experts. The last part of Volume 3A and all of Volume 3B consist of instrumental methods applied to certain industrial products as specid materials. Agein the coverage varies greatly from one chapter to mother. The chapter on glitss, by multiple anthors, strikes me as one of the better ones, as does that on paper wood, and pulp. Other chapters deal with sir pollutsnts, ferrous and nonferrous alloys, amino acids, port.land cement,, clinical medicine, natural fats, fertilizen, foods, organic functional groups, gases, paints, paper, pesticide residue analysis, petroleum and its products, plastics, rubber, semiconductors, soaps and other detergents, soils and water. A detailed subject index concludes Volume 3B. The organization of the material in the varioos volumes is strange. I n Volume 2B are offered methods for the chemical analysis of many materials analyzed in Volume 3 by "instrumental" methods. For the user of the book it would have been more convenient to present together as a unit the chemical and instrumentd methods of a given m ~ t e r i d . As stated in the review of Volume 2, (See THIS JOURNAL, 40, 560 [October 19631.) the strong feature of "Standard Methods" has been and is its explicit and detailed

Volume 8

H a ~ yF . Holtlclaw, Jr., Editor-inchief, University of Nebraska, Lincoln. McGnuw-Hill Book Co., Inc., N e w York, 1966. xv 319 pp. Figs. and tables. 15.5 X 23.5 cm. $12.50.

+

This "continuing series of self-contained volumes representing an effort on the pert of an outstanding group of inorganic chemists to make available detailed and tested methods for the syntheses of inorganic compounds" needs no intraducThe tion to readers of THIS JOURNAL. general organization of "Inorganic Syntheses" was outlined in reviews of the two previous volumes (J. CHEM. EDUC.,38, A552 [1961]; 40, A530 [19631). Contributions by 68 American and foreign chemists delineate procedures for the preparation of some 120 individual compounds and two review articles (metal derivatives of 8-keto imines and noble gas compounds) are included in this volume. Laboratory manuals for courses in inorganic chemistry are still scarce, and many instructors of such courses look forward to the publication of a new voltme of "Inorganic Syntheses" in anticipation of preparations suitable for undergraduate or graduate students. Even after having eliminakd the many highly toxic and potentially explosive substances, fur whieh, incidentally, precautions are clearly indicated, the instructor will still have left a variety of synthetic techniques and compound types, which serve to reflect

graphic separations of isomers, chelate exchange reactions, and the use of irrsdiiltion and controlled atmospheres. The types of substances extend from elements (hexaatomic sulfur) through binary compounds to complex and polymeric compounds of many elements, with emphasis, as in the previous volume, on periodic groups VA (especially cyclic P-N compounds) and VIII. Acetylseetonates and other chelates. oreano-

and unusual coordination numbers are well represented. Instructors and student3 alike will enjoy working with the easily prepared and colorful coordination compounds of cobalt, and chromium. Useful starting materials and intermediates of interest to the coordination chemist include Cr(NH&O,, Nas[Co(COa)s].3H1OI KdCog(CzO& (OH)Z].~H~O, Na8[RhCla12H20, and ( N H ) [ I ] That perennial favorite of inorganic laboratory courses, chromium(I1) acetab, appears again in this

(Continued on page A358)