Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- PART ONE FUNDAMENTALS OF STATISTICAL THERMODYNAMICS
- PART TWO QUANTUM MECHANICS AND SPECTROSCOPY
- PART THREE STATISTICAL THERMODYNAMICS IN THE DILUTE LIMIT
- PART FOUR STATISTICAL THERMODYNAMICS BEYOND THE DILUTE LIMIT
- PART FIVE NONEQUILIBRIUM STATISTICAL THERMODYNAMICS
- PART SIX THE ENSEMBLE METHOD OF STATISTICAL THERMODYNAMICS
- PART SEVEN APPENDICES
- A Physical Constants and Conversion Factors
- B Series and Integrals
- C Periodic Table
- D Mathematical Procedures
- E Thermochemical Data for Ideal Gases
- F Summary of Classical Thermodynamics
- G Review of Classical Mechanics
- H Review of Operator Theory
- I The Spherical Coordinate System
- J Electronic Energy Levels
- K Energy-Mode Parameters for Molecules
- L Normal Mode Analysis
- M Tabulation of Debye Function
- N Maxwell–Boltzmann Energy Distribution
- O Force Constants for the Lennard–Jones Potential
- P Collision Integrals for Calculating Transport Properties from the Lennard–Jones Potential
- Q Reduced Second Virial Coefficient from the Lennard–Jones Potential
- R References and Acknowledgments
- Index
Q - Reduced Second Virial Coefficient from the Lennard–Jones Potential
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- 1 Introduction
- PART ONE FUNDAMENTALS OF STATISTICAL THERMODYNAMICS
- PART TWO QUANTUM MECHANICS AND SPECTROSCOPY
- PART THREE STATISTICAL THERMODYNAMICS IN THE DILUTE LIMIT
- PART FOUR STATISTICAL THERMODYNAMICS BEYOND THE DILUTE LIMIT
- PART FIVE NONEQUILIBRIUM STATISTICAL THERMODYNAMICS
- PART SIX THE ENSEMBLE METHOD OF STATISTICAL THERMODYNAMICS
- PART SEVEN APPENDICES
- A Physical Constants and Conversion Factors
- B Series and Integrals
- C Periodic Table
- D Mathematical Procedures
- E Thermochemical Data for Ideal Gases
- F Summary of Classical Thermodynamics
- G Review of Classical Mechanics
- H Review of Operator Theory
- I The Spherical Coordinate System
- J Electronic Energy Levels
- K Energy-Mode Parameters for Molecules
- L Normal Mode Analysis
- M Tabulation of Debye Function
- N Maxwell–Boltzmann Energy Distribution
- O Force Constants for the Lennard–Jones Potential
- P Collision Integrals for Calculating Transport Properties from the Lennard–Jones Potential
- Q Reduced Second Virial Coefficient from the Lennard–Jones Potential
- R References and Acknowledgments
- Index
Summary
- Type
- Chapter
- Information
- Statistical ThermodynamicsFundamentals and Applications, pp. 438Publisher: Cambridge University PressPrint publication year: 2005