## Foundations of Electromagnetic Theory |

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### Contents

Vector Analysis | 1 |

Electrostatics | 21 |

Solution of Electrostatic Problems | 44 |

Copyright | |

17 other sections not shown

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### Common terms and phrases

angle applied atomic axis bound charge boundary conditions calculate capacitor cavity Chapter charge carriers charge density charge distribution charge q coefficients conductor consider constant coordinates curl current density curve cylinder defined derivative dielectric differential dipole direction displacement distance divergence theorem electric field electromagnetic electrons equipotential expression ferromagnetic force free charge frequency function Gauss given grad gradient hence hysteresis inside interface ions Laplace's equation line integral linear loop macroscopic magnetic energy magnetic field magnetic induction magnetic material magnitude Maxwell's equations medium molecule motion negative obtained orbit parallel plasma plates point charge polarization positive Poynting vector problem quantity radius rectangular region resistance resistors result satisfied scalar Section Show shown in Fig solution solved sphere spherical surface integral temperature tion toroidal uniform unit volume vanishes vector potential velocity voltage volume element wave equation wire zero