## Fundamentals of statistical and thermal physics |

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Page 61

Since the probability of occurrence of each state of the entire system is i, one has

simply + in + U-v) 2 • 5 Behavior of the

one which has very many degrees of freedom (e.g., a copper block, a bottle of ...

Since the probability of occurrence of each state of the entire system is i, one has

simply + in + U-v) 2 • 5 Behavior of the

**density**of states A macroscopic system isone which has very many degrees of freedom (e.g., a copper block, a bottle of ...

Page 235

(b) In thermal equilibrium, the electrons form a gas of variable

the entire space between the wire and cylinder. Using the result of part (a), find

the dependence of the electric charge

(b) In thermal equilibrium, the electrons form a gas of variable

**density**which fillsthe entire space between the wire and cylinder. Using the result of part (a), find

the dependence of the electric charge

**density**on the radial distance r. 6.10 A ...Page 301

also in the mass

about the value n = N/V, and for relatively small values of An = n — H one has An

= -(N/?*) AF = -(n/V) AV. Hence (8-4-20) implies for the dispersion in the number

...

also in the mass

**density**of the substance). The fluctuations in n are centeredabout the value n = N/V, and for relatively small values of An = n — H one has An

= -(N/?*) AF = -(n/V) AV. Hence (8-4-20) implies for the dispersion in the number

...

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User Review - JJMAlmeida - LibraryThingNever mind that this book was published in the mid '60s (before I was even born); if you must choose one book to learn from, choose this one. It is so concise, so well thought out that I have yet to ... Read full review

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i want this book

Reif: fundamental of statistical thermal physics

### Contents

Introduction to statistical methods | 1 |

GENERAL DISCUSSION OF THE RANDOM WALK | 24 |

Statistical description of systems of particles | 47 |

Copyright | |

24 other sections not shown

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### Common terms and phrases

absolute temperature approximation assume atoms becomes Boltzmann equation calculate canonical distribution chemical potential classical coefficient collision condition Consider constant container corresponding curve denote density depends derivatives discussion electrons ensemble entropy equal equation equilibrium situation equipartition theorem evaluated example expression external parameters fluctuations frequency gases given heat capacity heat reservoir Hence ideal gas independent infinitesimal integral integrand interaction internal energy isolated system kinetic liquid macroscopic macrostate magnetic field mass maximum mean energy mean number mean pressure mean value measured metal molar mole molecular momentum number of molecules number of particles obtains partition function perature phase space photons physical piston position probability problem quantity quantum quantum mechanics quasi-static radiation range relation result simply solid specific heat spin statistical mechanics Suppose theorem thermal contact thermally insulated Thermodynamics tion total energy total number unit volume variables velocity yields