## The Theory of the Properties of Metals and AlloysQuantum methods develop mathematical models: crystal structure, magnetic susceptibility, electrical and optical properties, thermal properties, etc. Unabridged republication of the original (1936) edition. |

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### Contents

THE SPECIFIC HEAT AT LOW TEMPERATURES | 1 |

THE EFFECTIVE NUMBER OF FREE ELECTRONS | 4 |

RESISTANCE AT HIGH TEMPERATURES | 7 |

Copyright | |

28 other sections not shown

### Other editions - View all

The Theory of the Properties of Metals and Alloys Sir Nevill Francis Mott,H. Jones Snippet view - 1936 |

The Theory of the Properties of Metals and Alloys Sir Nevill Francis Mott,H. Jones Snippet view - 1958 |

### Common terms and phrases

absorption according alloy approximation assume assumption atom band bismuth boundary calculated Chap charge coefficient compared conductivity consider constant copper corresponding crystal cubic curve defined denote density depends determine direction discussed distance distribution effective electrical elements energy equal equation expression Fermi field formula free electrons frequency given gives greater hence increase integral interaction ions lattice low temperatures magnetic mean measured metals method motion moving neighbours nickel number of electrons observed obtain occupied occur parallel periodic phase Phys planes possible potential probability Proc quantum quantum mechanics range referred represents resistance seen shell shown in Fig shows simple solid solution specific heat structure surface temperature term theory thermal tion transition valence electron values vanishes vibrations volume wave function write Zeits zero zone