Show Summary Details

- Title Pages
- Foreword
- Preface
- Disclaimer
- Physical Data, Notation and Online Materials
- 1 Preamble
- 2 Covalent Compounds
- 3 Molecular Compounds
- 4 Ionic Compounds
- 5 Metallic Compounds
- 6 Nanoscience and Nanotechnology
- 7 Computer-Aided Chemistry
- A1 Stereoviewing and Stereoviewers
- A2 Miller Indices
- A3 Bragg Reflection of X-rays from Crystals
- A4 Boltzmann Distribution from the Hypsometric Formula
- A5 Mean Classical Thermal Energy and the Equipartition Theorem
- A6 Spherical Polar Coordinates
- A7 Gamma Function Γ(n)
- A8 Reduced Mass
- A9 Solution of a Differential Equation
- A10 Determinant Expansion, Matrices and Matrix Properties and Hückel Molecular-Orbital Coefficients
- A11 Electrostatics and Volume of Molecules in a Gas
- A12 Configurational Energy
- A13 Numerical Integration
- A14 X-ray Crystallographic Structure Analyses of Potassium Chloride and Sodium Chloride
- A15 Calculation of Madelung Constants
- A16 Equation of State for a Solid
- A17 Partial Molar Quantities and Standard States
- A18 Debye Limiting Law
- A19 Quantum Statistics
- A20 Reciprocal Space and Reciprocal Lattice
- A21 Wave Packets
- Tutorial Solutions
- Index

# (p.397) A5 Mean Classical Thermal Energy and the Equipartition Theorem

# (p.397) A5 Mean Classical Thermal Energy and the Equipartition Theorem

- Source:
- Bonding, Structure and Solid-State Chemistry
- Author(s):
### Mark Ladd

- Publisher:
- Oxford University Press

British Academy Scholarship Online requires a subscription or purchase to access the full text of books within the service. Public users can however freely search the site and view the abstracts and keywords for each book and chapter.

Please, subscribe or login to access full text content.

If you think you should have access to this title, please contact your librarian.

To troubleshoot, please check our FAQs , and if you can't find the answer there, please contact us.

- Title Pages
- Foreword
- Preface
- Disclaimer
- Physical Data, Notation and Online Materials
- 1 Preamble
- 2 Covalent Compounds
- 3 Molecular Compounds
- 4 Ionic Compounds
- 5 Metallic Compounds
- 6 Nanoscience and Nanotechnology
- 7 Computer-Aided Chemistry
- A1 Stereoviewing and Stereoviewers
- A2 Miller Indices
- A3 Bragg Reflection of X-rays from Crystals
- A4 Boltzmann Distribution from the Hypsometric Formula
- A5 Mean Classical Thermal Energy and the Equipartition Theorem
- A6 Spherical Polar Coordinates
- A7 Gamma Function Γ(n)
- A8 Reduced Mass
- A9 Solution of a Differential Equation
- A10 Determinant Expansion, Matrices and Matrix Properties and Hückel Molecular-Orbital Coefficients
- A11 Electrostatics and Volume of Molecules in a Gas
- A12 Configurational Energy
- A13 Numerical Integration
- A14 X-ray Crystallographic Structure Analyses of Potassium Chloride and Sodium Chloride
- A15 Calculation of Madelung Constants
- A16 Equation of State for a Solid
- A17 Partial Molar Quantities and Standard States
- A18 Debye Limiting Law
- A19 Quantum Statistics
- A20 Reciprocal Space and Reciprocal Lattice
- A21 Wave Packets
- Tutorial Solutions
- Index