An Introduction to the Liquid State

Author： Egelstaff P

Publisher： Elsevier Science‎

Publication year： 2012

E-ISBN: 9780323159036

P-ISBN(Paperback): 9780123955159

P-ISBN(Hardback): 9780123955159

Subject： O552.4 kinetic theory of liquids

Language： ENG

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Description

An Introduction to the Liquid State focuses on the atomic motions and positions of liquids. Particularly given importance in this book are internal motion of molecules as a whole and the motion of atoms in a monatomic liquid.
Divided into 16 chapters, the book opens by outlining the general properties of liquids, including a comparison of liquid argon and liquid sodium, discussions on theories and methods of studying the liquid state, and thermodynamic relationships. The book proceeds by defining the molecular distribution functions and equation of state, the potential function for non-conducting liquids and metals, and measurement of pair distribution function. Numerical analyses and representations are provided to simplify the functions of equations.
The book discusses equilibrium properties wherein calculations on the state of gases and fluids are presented. The text also underlines space and time dependent correlation functions. Given emphasis in this part are neutron scattering, electromagnetic radiation, and various radiation scattering techniques. Other concerns discussed are diffusion and single particle motion, velocity of correlation function, diffusion and viscosity coefficients, liquid-gas critical point, and a comparison of classical and quantum liquids.
The selection is a valuable source of information for readers wanting to study the composition and reactions of liquids.

Chapter

Front Cover

pp.： 1 – 4

An Introduction to the Liquid State

pp.： 4 – 5

pp.： 5 – 6

Table of Contents

pp.： 6 – 10

Acknowledgments

pp.： 10 – 12

Preface

pp.： 12 – 16

General List of Symbols

pp.： 16 – 18

Chapter 1. General Properties of Liquids

pp.： 18 – 29

Chapter 2. Molecular Distribution Functions and theEquation of State

pp.： 29 – 42

Chapter 3. The Pair Potential Function for NonconductingLiquids

pp.： 42 – 57

Chapter 4. The Pair Potential Function for Liquid Metals

pp.： 57 – 70

Chapter 5. Relations between g(r) and u(r)

pp.： 70 – 83

Chapter 6. Measurement of the Pair Distribution Function

pp.： 83 – 95

Chapter 7. Discussion of Equilibrium Properties

pp.： 95 – 108

Chapter 8. Space and Time Dependent Correlation Functions

pp.： 108 – 123

Chapter 9. The Classical Limit of S(Q, ω) and its Relation to Macroscopic Properties

pp.： 123 – 135

Chapter 10. Diffusion and Single Particle Motion

pp.： 135 – 150

Chapter 11. The Velocity Correlation Function

pp.： 150 – 165

Chapter 12. Phenomenological Treatments of Diffusion and Viscosity Coefficients

pp.： 165 – 179

Chapter 13. Co-operative Modes of Motion at Low Frequencies

pp.： 179 – 199

Chapter 14. Co-operative Modes of Motion at High Frequencies

pp.： 199 – 216

Chapter 15. The Liquid–Gas Critical Point

pp.： 216 – 231

Chapter 16. Quantum Liquids

pp.： 231 – 246

References

pp.： 246 – 250

Subject Index

pp.： 250 – 254

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