Molecular Thermodynamics
Molecular Thermodynamics
By: Donald A. McQuarrie, John D. Simon
Evolved from McQuarrie and Simon's best-selling textbook, Physical Chemistry: A Molecular Approach, this text focuses in on the thermodynamics portion of the course.
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Title information
Evolved from McQuarrie and Simon’s best-selling textbook, Physical Chemistry: A Molecular Approach, this text focuses in on the thermodynamics portion of the course. Although many of the chapters in Molecular Thermodynamics are similar to chapters in the larger physical chemistry text, new material has been added throughout along with three entirely new chapters on “The Energy Levels of Atoms and Molecules,” “Thermodynamics of Electrochemical Cells,” and “Nonequilibrium Thermodynamics.” The text also includes five short “MathChapters,” each with a special set of problems that will help students review and summarize the mathematical tools required to master the material. Worked examples and chapter-ending problems with solutions are also included throughout the book.
Preface
1. The Energy Levels of Atoms and Molecules
MathChapter A: Numerical Methods
2. The Properties of Gases
MathChapter B: Probability and Statistics
3. The Boltzmann Factor and Partition Functions
MathChapter C: Series and Limits
4. Partition Functions and Ideal Gases
MathChapter D: Partial Differentiation
5. The First Law of Thermodynamics
MathChapter E: The Binomial Distribution and Stirling’s Approximation
6. Entropy and the Second Law of Thermodynamics
7. Entropy and the Third Law of Thermodynamics
8. Helmholtz and Gibbs Energies
9. Phase Equilibria
10. Solutions I: Liquid-Liquid Solutions
11. Solutions II: Solid-Liquid Solutions
12. Chemical Equilibrium
13. Thermodynamics of Electrochemical Cells
14. Nonequilibrium Thermodynamics
Answers to Numerical Problems
Illustration Credits
Index
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“The writing is exceptionally clear, and explanations are lucid and sound.” “This book represents a sort of down-sized version of the Magnum Opus by the same authors: Physical Chemistry, A Molecular Approach. For those readers who are already familiar with this book and like it, I can say that: this one gives you basically the same goodies but in a more digestible form…McQuarrie is emerging as one of the the best writers on undergrad thermodynamics and statistical mechanics around…” “An extremely large number of worked examples and end-of-chapter problems supplement this excellent book.” |
Donald A. McQuarrie
As the author of landmark chemistry books and textbooks, Donald McQuarrie's name is synonymous with excellence in chemical education. From his classic text on Statistical Mechanics to his recent quantum-first tour de force on Physical Chemistry, McQuarrie's best selling textbooks are highly acclaimed by the chemistry community. McQuarrie received his PhD from the University of Oregon, and is Professor Emeritus from the Department of Chemistry at the University of California, Davis.
John D. Simon
John D. Simon became the first George B. Geller Professor of Chemistry at Duke University in 1998. He is currently Chair Chemistry Department at Duke and a faculty member of the Biochemistry, and Ophthalmology Departments of the Duke Medical Center. John graduated from Williams College in 1979 with a B.A. in Chemistry and received his Ph.D. from Harvard University in 1983. After a postdoctoral fellowship with Professor Mostafa El-Sayed at UCLA, John joined the faculty of the Department of Chemistry at UCSD in 1985.