Elementary Electromagnetic Theory: Magnetic fields, special relativity, and potential theory |
Contents
Summary | 32 |
Techniques for the Electrostatic Field | 57 |
Dielectric Materials | 115 |
Copyright | |
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Ampere's Law amplitude angle antenna assume assumption atom boundary conditions boundary value problem calculate capacitor Chapter charge density charge distribution circuit coefficients components conductivity conductor consider constant cosh current carrying wire current flow cylindrical coordinates defined derivative dielectric dielectric material diode dipole direction displacement displacement vector E-field E₁ electric field electromagnetic electrons electrostatic energy equivalent evaluate example flux force free space frequency function Gauss's Law identical impedance induced E.M.F. infinite integral Laplace's Equation linear located loop magnetic field magnetic material magnitude Maxwell's Equations mhos/m molecules moving negative permanent magnet permittivity physical plane wave point charge polarization charge possible Poynting Vector propagation r₁ radiation radius rectangular coordinates reflected region result scalar separation shown in Fig sin² sinh solenoid solution solve sphere spherical coordinates superposition surface charge symmetry tion transmission line uniform field V₁ vector potential velocity voltage zero