Thermal Physics Solutions Manual
Thermal Physics Solutions Manual
Out of Print
Clear and reader-friendly, this is an ideal textbook for students seeking an introduction to thermal physics. Written by an experienced teacher and extensively class-tested, Thermal Physics provides a comprehensive grounding in thermodynamics, statistical mechanics, and kinetic theory. A key feature of this text is its readily accessible introductory chapters, which begin with a review of fundamental ideas. Entropy, conceived microscopically and statistically, and the Second Law of Thermodynamics are introduced early in the book. Throughout, topics are built on a conceptual foundation of four linked elements: entropy and the Second Law, the canonical probability distribution, the partition function, and the chemical potential. As well as providing a solid preparation in the basics of the subject, the text goes on to explain exciting recent developments such as Bose-Einstein condensation and critical phenomena. Key equations are highlighted throughout, and each chapter contains a summary of essential ideas and an extensive set of problems of varying degrees of difficulty. A free solutions manual is available for instructors (ISBN 0521 658608). Thermal Physics is suitable for both undergraduates and graduates in physics and astronomy.
Product details
July 1999Paperback
9780521658607
160 pages
298 × 212 × 11 mm
0.448kg
Unavailable - out of print April 2007
Table of Contents
- Preface
- 1. Background
- 2. The second law of thermodynamics
- 3. Entropy and efficiency
- 4. Entropy in quantum theory
- 5. The canonical probability distribution
- 6. Photons and phonons
- 7. The chemical potential
- 8. The quantum ideal gas
- 9. Fermions and bosons at low temperature
- 10. The free energies
- 11. Chemical equilibrium
- 12. Phase equilibrium
- 13. The classical limit
- 14. Approaching zero
- 15. Transport processes
- 16. Critical phenomena
- Epilogue
- Appendix A. Physical and mathematical data
- Appendix B. Examples of estimating occupation numbers
- Appendix C. The framework of probability theory
- Appendix D. Qualitative perspectives on the van der Waals equation
- Index.
