## Electromagnetic Fields |

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### Contents

Basic Concepts and Equations | 1 |

Static and Almost Static Fields | 62 |

Energy Storage Dissipation and Transfer | 127 |

Copyright | |

8 other sections not shown

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### Common terms and phrases

amplitude angle approaches zero approximate Assume axis boundary conditions calculated capacitance cavity characteristic impedance charge q circuit circulating current coaxial coefficients conducting plane conductor cones Consider coordinates current density current element current filament cylinder dielectric constant direct current displaced charge displacement current distance electric charge electric current electric field electric intensity electrons energy equal and opposite expressed flow function given by equation Hence inductance infinite infinitesimal input integral interface line charge loop magnetic field magnetic flux density magnetic intensity magnetomotive force Maxwell's equations metal sphere natural frequency obtain oppositely charged parallel wires particle plate point charge potential preceding problem propagation quantities radial ratio resistance Show shown in Figure solenoid solution sphere of radius spherical Substituting from equation surface tangential component tion transmission line transverse voltage tube uniform uniformly unit length vanishes vector voltage wave