## Principles and Applications of Electromagnetic Fields |

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### Contents

Vector Analysis | 1 |

Electrostatics | 39 |

Electrostatic Fields in Material Bodies Energy and Forces | 79 |

Copyright | |

11 other sections not shown

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### Common terms and phrases

Ampère's Ampère's law angle antenna applied field arbitrary array assumed axis body boundary conditions capacitance capacitor charge density circuit component conducting conductor Consequently consider constant coordinates coulombs curl current density current flow current loop cylinder derived dielectric differential direction displacement distribution divergence divergence theorem electric field electromagnetic electron electrostatic field energy stored equal equivalent evaluate example expression field point finite flux linking force frequency function given Helmholtz's theorem hence illustrated in Fig infinite integral Laplace's equation line charge line integral linear magnetic dipole magnetic field magnitude material Maxwell's equations meter mode normal Note obtain plane wave plates Poisson's equation polarization Poynting vector Prob problem propagation radiated radius rectangular region result scalar potential ſº solution space sphere spherical surface charge theorem time-varying tion toroid uniform unit volume vector field vector potential velocity zero