(called "per~pectives" by the authors) not usually found as chapter subjects. Perspective 1: "How Discoveries are Made" discusses inductive and deductive reasoning and the scientific method of investigation. The role that chance, intuition, and design have played in important discoveries is descrihcd and empha~isis placed on the receptive mind when observations are made as the key to new advances. Perspective 2: "The Development of Chemistry as a Science" is n short, wellorganized summary of the important milestones in the history of chemistry and is developed chronologically. Perspective 3: "The Chemical Nature of our World" which immediately precedes the inorganic descriptive portion deals with the theories concerning the origin of the world and the universe, distribution of the elements, composition of the earth's crust, the atmosphere, the hydrosphere, and the biosphere. The book concludes with five chapters of organic chemistry, 78 pages in which the most generally applicable portions of the subject me covered in a logical and well illustrated form. The choice of material covered in this book is excellent; however, this reviewer finds the order in which the subject matter is presented requires that should the instructor wish to use a structursl approach it becomes necessary to reestablish the order in which the chapters are taken up. The early chapters cover very well the problem of the molecular and atomic structure of matter, but the properties of these particles which are derived from atomic structure are not discussed until Chapters 16 and 17. Following the same thinking as ahove, the organic chemistry is placed st the very end of the book, far removed from any discussion of bonding. Some references are made to early chapters where the subject of bonding is taken up, but its lochon seems to separate the organic portion from general theoretical hackground. Those instru~tomwho wish to use the more conventional approach will find this hook very helpful. Its clear, concise explanations, with plenty of illustrations and the absence of typographical errors d l make it easy for the student to understand and the instructor t o teach. JAMES F. CORWIN
A ~ ~ r o cCOLGEOE n YELLOW SPRINGS. Omo
CHEMISORPTION Edited by W. E. Garner, Professor E e r i tus, University ofBristol, England. Butterworths Publications Ltd., London, and Academic Press Inc., New Yo*, 1957. xii 277 pp. Many figs. and tables. 14.5 X 22.5 cm. $9.
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I '
"CAEMISORPTION" is a collection of 23 technical papers whioh were presented a t a symposium held a t the University College of North Staffordshire, England, (Catinued a page A90) JOURNAL OF CHEMICAZ EDUCATION
in July, 1956. These papers are nicely edited and, i t is important to note, include the discu~sionand comments which followed their presentation. In this respect the." possess the same high value that has long been associated with the Discussions of the Faraday Son'ety. All told, 52 of the leading academic and industrial English and continental researchers in the field contributed to this volume. As Professor Garner points out, "Chemisorption" may he regarded as a eantinuation of the Faradrty Society S,ymposia on "Adsorption of Gased'in 1932 and "Heterogeneous Catalysis'' in 1950. This hook is not intended as a general survey of the field for those with no previous experience in it. I t presupposes same knowledge or experience and require8 a. reasonably active interest in the phenomena discussed. I t is intentionally limited in scope in o ~ . d to e~ permit full and adequate discumions and includes papers in the five main categories: (1) Theory of Cheminorption, (2) Chemisorption on Insulators, (3) Chemisorptian on Metals, (4) Chemisorptian an Semiconductors, and (5) Chemisorptian on Carbon. The papers discuss principally work done in the last five years, but a t the same time they carefully tie this work to earlier research. All researchers desling with phenomena a t solid surfaces and all libraries endeavoring to maintain adequate information in this fiold should own a. copy. R. NELSON SMITH I'OMON* COL,.EOE
CLAREIIONF. CALIFORNIA
practice of tracer teehniqnes. The first hhree chapters, which deal n i t h fundamental principles of nuclear physics and chemistry, have been reuritten and modernized. As in the earlier editions, individual chapters are devoted t o isotopes or groups of isotopes of importance in biological tracer research. In each case, the techniques of preparation and assay of the isotope are presented and this is followed by consideration of examples from the literature illustrating uses of the isotope in biological research problems. P e r h ~ p aone of the most outstanding features of the neus edition is the extensive treatment (100 pages) of biochemical aspects of tmrev methodology. Here again, the examples selected for detailed discussion are drmm from a variety of re~earchesa t the forefront of modern biochemical research (e.g., CO1 fixation in photosynthesis, hiosynthesis of ramplex molerules, mechanism of enzyme action etr.). These examples ns aell as the other topics ransidered are thoroughly dacumented with references to the original research papers. Professor I h m e n , who is now in the Department of Biochemistry of 13randeis University, is to be complimented for this valuable contribution to the literature.
ORGANIC CHEMISTRY
Louise Kelley, Professor of Organic Chemistz.~, Goucher College, Baltimore, Maryland. Second edition. McGrawHill Book Co., Ino., New York, 1957. vii 757 pp. 3 7 figs. SO tables. 16 X 23.5 cm. $7.50.
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ISOTOPIC TRACERS IN BIOLOGY Mortin D. Kamen, Professor of Biochemistry, Brandeis University, Waltham, Massachusetts. Third edition. Academic Press Inc., New York, 1957. xii 474 pp. 71 figs. 41 tables. 16 X 23.5 em. $9.50.
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THEfirst edition of this work, published in 1947, was designed s s an introduction to tracer methodology ss applied to hiological research with t,hree maiu objectives: (1) to provide an introduction or review of those concepts in nuclear physics, an understanding of which is basic to the intelligent application of tracer methods in biology, (2) to present a systematic and critical survey of existing tracer methods, and (3) to indicate potentialities and limitations of these methods as applied to biological problems. The original text and the amplified second edition fulfilled these aims admirably. In addition to serving as an introduction to the field, the previous editions have also been generally regarded as an important source hook and guide by biochemists, microbiologists, and others actively engaged in research with isotopic tracers. The new edition has essentially the same framework as the previous versions, but has been expanded to include tracer
I N HER revision of the nell-known texb hook by the author and Professor Hill, the author hopes that "a. proper balance, hetween the two extremes of-only material n-hich students can master in a an? year course, and the inclusion of too much me; t e d so as to make the hook unwieldy-, hm heen achieved." I t is the belief of this reviewer that, in the main, this ahjeetive has been achieved. Following introductory chitpters on raleulations involved in determining molecular formulas and reviex of stomic structure with applications to ol.gsnic chemistry, there are 16 chapters on aliphatic compoimds. About halfway through these chapters, there are two wellwritten chapters on organic theow; one on mechanisms of organic reactions, and one an the molecular-orbital theory and its applications. Also interspersed are a rhapter on isomerism, two chapters on biochemistry, and s. chapter on wganometallic compounds. This is folloned hy a chapter on slicyclic chemistry. There are 12 chapters (133 pages) on aromatic chemistry, three of which are on nitrogen compounds. Falloning this there arc chapters devoted t o dyes, terpenes, heterocyclic chemistry (22 pages), alkaloids and steroids, plant pigments and vitamins. The text is followed by four interesting appendixes: a list of symhals used; a (Catinued a page ASS) JOURNAL OF CHEMICAL EDUCATION