Fields and Waves in Modern Radio |
Contents
OSCILLATION AND WAVE FUNDAMENTALS | 1 |
THE EQUATIONS OF STATIONARY ELECTRIC | 48 |
Simple Applications of the Theory | 79 |
Copyright | |
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Common terms and phrases
Ampère's law angle antenna applied approximate assumed attenuation axial axis Bessel functions biconical antenna boundary conditions calculated capacitance cavity Chapter characteristic impedance charge circuit compared with wavelength considered constant curl current density current distribution current flow cylindrical defined dielectric differential equation dipole electric and magnetic electric field energy expressions field components field distributions flux given H₂ higher order waves inductance infinite integral Laplace's equation loop magnetic field magnitude Maxwell's equations method normal obtained perfect conductor phase velocity plane wave potential Poynting Poynting vector principal wave Problem quantity radiation radius ratio rectangular reflected wave region resistance resonator scalar sinusoidal skin effect solution space standing wave static surface tangential tion TM wave transmission line transverse traveling wave uniform plane wave vector voltage wave guides wave impedance wave types wire zero