## Lectures on the electrical properties of materials |

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### Contents

THE ELECTRON AS A WAVE | 27 |

THE ELECTRON | 41 |

THE HYDROGEN ATOM AND THE PERIODIC TABLE | 62 |

Copyright | |

11 other sections not shown

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### Common terms and phrases

absorption applied assume bond breakdown Calculate carriers circuit collision conduction band conductor crystal current flowing curve density derivation devices dielectric constant differential equation diode domains effective mass electric field electromagnetic wave electrons and holes emission emitter energy gap energy levels engineers equilibrium example experimental Fermi level ferromagnetic finite free electron frequency Gibbs free energy happens helium Hence higher hydrogen atom impurity increase insulator integral intrinsic semiconductors ions large number laser lattice layer magnetic field mathematical measured metal microscope molecule n-type n-type semiconductor negative resistance number of electrons obtained one-dimensional oscillator p-n junction p-type material particle physical picture polarized potential barrier potential energy probability properties proton quantum mechanics quantum numbers region relationship resonance Schrodinger's equation semiconductor shell shown in Fig silicon solid solution spin superconducting surface temperature theory thermal total number transistor transition tunnel valence band velocity voltage wave function wavelength zero