Rating: 
Summary: This book is HORRIBLE!
Review: This is the WORST book I've ever seen. The authors assume that calculus and differential equations are the second nature to the readers and use complicated mathmatical derivations without any explanation. Furthermore, the topics covered in this book are just too broad and disorganized. After reading a chapter, I wonder, "what is this chapter about?"
Don't buy this book--the only reason that I bought this book is because we use this text book in our class. And only after one term, I am thinking about buying another text. This book is an absolute waste of money.
Rating: 
Summary: not so bad
Review: Tinoco, Sauer, Wang, and now Puglisi, have written a fine text on both the foundations of thermodyanmics and physical chemistry, and the applications of these fields to biological phenomena (both natural and experimental.)The 3rd edition of the book, in this reviewer's memory, was remarkable only in its staggering lack of focus and explanatory power. This 4th edition vastly improves on that effort. It has to be said that thermodynamics without statistical mechanics is probably always going to be obscured by the fog of axioms, unless the reader exhibits some remarkable intuitiveness about entropy and partial derivatives. The first few chapters of the book focus on thermodynamics from this axiomatic approach, and may be the reason why so many undergraduate students find the whole thing so distasteful. But it has to be said that the authors spared some effort in trying to ameliorate the abstractness of thermo, by interjecting molecular interpretations of thermo phenomena every now and then. Once the reader has sped past the thermodynamics, and free energy equilibria chapters, he can be expected to come upon a series of well-written chapters on kinetics. The chapters are generously illustrated with informative diagrams, and most modern and relevant topics are discussed, such as transition state theories, enzyme kinetics, allostery (although the section on allostery was slightly underwhelming. I recommend that the authors develop this section more carefully by considering the various regimes of allostery.) A valiant attempt is made for discussing quantum mechanics and applications to physical chemistry problems. However, it would seem that quantum mechanics just can't be taught in one chapter, although it's essential in proper understanding of spectroscopy, which forms the basis for the subsequent 'applications' chapter. The book ends with a discussion of statistical thermodynamics. If the reader begins here and reads it carefully, it is likely that he can surmount the comprehension problems in the initial thermodynamics chapters. This is only the opinion of this reviewer though. In summary, this is a good book with a comprehensive collection of topics relevant to the modern biology researcher (be you biochemist, biophysicist, chemical biologist, or plain vanilla biologist). The undergraduate student may be bewildered by the variety of topics presented in such a succint manner. The book has easy to read type, sometimes crammed with too much text. There is an absolutely excellent selection of problems, with an accompanying solutions manual that bears only a few errors. Let it be said that there are many many worse physical chemistry books out there, and giving this book anything less than 3 stars would corrupt the usefulness of the ... ratings system.
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