Book contents
- Frontmatter
- Contents
- Nomenclature
- Preface
- 1 Introduction
- 2 Foundations
- 3 The Ideal Gas
- 4 Excess Function Models
- 5 Equation of State Models
- Appendix 1 Fundamental Constants and Atomic Units
- Appendix 2 Stirling's Formula
- Appendix 3 Relative Probability of a Microstate
- Appendix 4 Spherical Harmonics, Rotation Matrices, and Clebsch–Gordan Coefficients
- Appendix 5 Higher-Order Perturbation Terms for the Intermolecular Potential Energy of Simple Molecules
- Appendix 6 Rules for Integration
- Appendix 7 Internal Rotation Contributions
- Appendix 8 Quasichemical Approximation for the Degeneracy in a Lattice
- Appendix 9 Off-Lattice Formulation of the Quasichemical Approximation
- Appendix 10 Combinatorial Contribution to the Excess Entropy in a Lattice
- Appendix 11 Integration Variables for Three-Body Interactions
- Appendix 12 Multipole Perturbation Terms for the High-Temperature Expansion
- Index
Appendix 10 - Combinatorial Contribution to the Excess Entropy in a Lattice
Published online by Cambridge University Press: 11 March 2010
- Frontmatter
- Contents
- Nomenclature
- Preface
- 1 Introduction
- 2 Foundations
- 3 The Ideal Gas
- 4 Excess Function Models
- 5 Equation of State Models
- Appendix 1 Fundamental Constants and Atomic Units
- Appendix 2 Stirling's Formula
- Appendix 3 Relative Probability of a Microstate
- Appendix 4 Spherical Harmonics, Rotation Matrices, and Clebsch–Gordan Coefficients
- Appendix 5 Higher-Order Perturbation Terms for the Intermolecular Potential Energy of Simple Molecules
- Appendix 6 Rules for Integration
- Appendix 7 Internal Rotation Contributions
- Appendix 8 Quasichemical Approximation for the Degeneracy in a Lattice
- Appendix 9 Off-Lattice Formulation of the Quasichemical Approximation
- Appendix 10 Combinatorial Contribution to the Excess Entropy in a Lattice
- Appendix 11 Integration Variables for Three-Body Interactions
- Appendix 12 Multipole Perturbation Terms for the High-Temperature Expansion
- Index
- Type
- Chapter
- Information
- Molecular Models for Fluids , pp. 371 - 378Publisher: Cambridge University PressPrint publication year: 2007