## Statistical Physics, Volume 5Elementary college physics course for students majoring in science and engineering. |

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Page 95

(a)

consideration contains N such nuclei which interact with each other to a

negligible extent. Let M denote the total component of magnetic moment, along

the specified ...

(a)

**Calculate**H and P. (b)**Calculate**(Au)2. (c) Suppose that the solid underconsideration contains N such nuclei which interact with each other to a

negligible extent. Let M denote the total component of magnetic moment, along

the specified ...

Page 184

By exploiting the properties of the exponential function, show that Z can be

written in the form Z = Zon (i) where Zo is the partition function for a single

molecule and was already

mean energy E ...

By exploiting the properties of the exponential function, show that Z can be

written in the form Z = Zon (i) where Zo is the partition function for a single

molecule and was already

**calculated**in Sec. 4.7. (b) Use (i) to**calculate**themean energy E ...

Page 218

(c)

T. Make an approximate sketch of E versus T. (d)

of this system. Make an approximate sketch of C versus T. 5.13 Thermal ...

(c)

**Calculate**the mean energy E(T) of this system as a function of the temperatureT. Make an approximate sketch of E versus T. (d)

**Calculate**the heat capacity C(T)of this system. Make an approximate sketch of C versus T. 5.13 Thermal ...

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### Contents

Characteristic Features of Macroscopic Systems | 1 |

A I | 2 |

I | 6 |

Copyright | |

26 other sections not shown

### Common terms and phrases

absolute temperature absorbed accessible approximation assume atoms average Avogadro's calculate classical collision Consider constant container corresponding cules denote discussion distribution ensemble entropy equal equilibrium situation equipartition theorem example exchange energy expression external parameters fluctuations function given heat capacity heat Q heat reservoir Hence ideal gas initial internal energy interval isolated system kinetic energy large number left half liquid ln Q macroscopic parameters macroscopic system macrostate magnetic field magnetic moment magnitude mass mean energy mean number mean pressure mean value measured mechanics mole molecular momentum number of molecules occur oscillator particle particular partition phase space piston position possible values Prob quantity quantum numbers quasi-static random relation result simply solid specific heat spin system statistical statistical ensemble statistically independent Suppose thermal contact thermal interaction thermally insulated thermometer tion total energy total magnetic total number unit volume velocity