Overview

In Thermal Physics: Thermodynamics and Statistical Mechanics for Scientists and Engineers, the fundamental laws of thermodynamics are stated precisely as postulates and subsequently connected to historical context and developed mathematically. These laws are applied systematically to topics such as phase equilibria, chemical reactions, external forces, fluid-fluid surfaces and interfaces, and anisotropic crystal-fluid interfaces. Statistical mechanics is presented in the context of information theory to quantify entropy, followed by development of the most important ensembles: microcanonical, canonical, and grand canonical. A unified treatment of ideal classical, Fermi, and Bose gases is presented, including Bose condensation, degenerate Fermi gases, and classical gases with internal structure. Additional topics include paramagnetism, adsorption on dilute sites, point defects in crystals, thermal aspects of intrinsic and extrinsic semiconductors, density matrix formalism, the Ising model, and an introduction to Monte Carlo simulation. Throughout the book, problems are posed and solved to illustrate specific results and problem-solving techniques.

Full Product Details

Author:   Robert Floyd Sekerka (University Professor Emeritus, Physics and Mathematics, Carnegie Mellon University, Pittsburgh, PA, USA)
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Elsevier Science Publishing Co Inc
Dimensions:   Width: 19.10cm , Height: 3.10cm , Length: 23.50cm
Weight:   1.200kg
ISBN:  

9780128033043

ISBN 10:   0128033045
Pages:   610
Publication Date:   19 August 2015
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Preface Part I: Thermodynamics 1. Introduction 2. First Law of Thermodynamics 3. Second Law of Thermodynamics 4. Third Law of Thermodynamics 5. Open Systems 6. Equilibrium and Thermodynamic Potentials 7. Requirements for Stability 8. Monocomponent Phase Equilibrium 9. Two-Phase Equilibrium for a van der Waals Fluid 10. Binary Solutions 11. External Forces and Rotating Coordinate Systems 12. Chemical Reactions 13. Thermodynamics of Fluid-Fluid Interfaces 14. Thermodynamics of Solid-Fluid Interfaces Part II: Statistical Mechanics 15. Entropy and Information Theory 16. Microcanonical Ensemble 17. Classical Microcanonical Ensemble 18. Distinguishable Particles with Negligible Interaction Energies 19. Canonical Ensemble 20. Classical Canonical Ensemble 21. Grand Canonical Ensemble 22. Entropy for Any Ensemble 23. Unified Treatment of Ideal Fermi, Bose and Classical Gases 24. Bose Condensation 25. Degenerate Fermi Gas 26. Quantum Statistics 27. Ising Model Part III: Appendices A. Stirling’s Approximation B. Use of Jacobians to Convert Partial Derivatives C. Differential Geometry of Surfaces D. Equilibrium of Two-State Systems E. Aspects of Canonical Transformations F. Rotation of Rigid Bodies G. Thermodynamic Perturbation Theory H. Selected Mathematical Relations I. Creation and Annihilation Operators

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Author Information

Robert Floyd Sekerka is University Professor Emeritus, Physics and Mathematics, Carnegie Mellon University. He received his bachelor’s degree summa cum laude in physics from the University of Pittsburgh in 1960 and his AM (1961) and PhD (1965) degrees from Harvard University where he was a Woodrow Wilson Fellow. He worked as a senior engineer at Westinghouse Research Laboratories until 1969 when he joined the faculty of Carnegie Mellon in the Materials Science and Engineering Department; he was promoted to Professor in 1972 and was Department Head from 1976–82. He served as Dean of the Mellon College of Science from 1982 through 1991. Subsequently he was named University Professor of Physics and Mathematics with a courtesy appointment in Materials Science and Engineering. He retired in 2011 but continues to do scientific research and writing. He is a Fellow of the American Society for Metals, the American Physical Society, and the Japanese Society for the Promotion of Science, and he has been a consultant to NIST for over forty years. Honors include the Phillip M. McKenna Award, the Frank Prize of the International Organization for Crystal Growth (President for six years) and the Bruce Chalmers Award of TMS. Please see http://sekerkaweb.phys.cmu.edu for further information and publications.

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