Fields and Waves in Communication Electronics |
Contents
OSCILLATION AND WAVE FUNDAMENTALS | 1 |
General Analysis of Guided Waves | 7 |
26 Nonuniform Transmission Lines 3588 | 53 |
Copyright | |
44 other sections not shown
Other editions - View all
Fields and Waves in Communication Electronics Simon Ramo,John R. Whinnery,Theodore Van Duzer No preview available - 1994 |
Fields and Waves in Communication Electronics Simon Ramo,John R. Whinnery,Theodore Van Duzer No preview available - 1994 |
Common terms and phrases
angle antenna applied approximate assumed attenuation axial axis boundary conditions C₁ calculated capacitance cavity Chapter coaxial conducting conductor considered constant coordinates cutoff cylindrical defined derived dielectric differential equation dipole direction distribution electric and magnetic electric field electromagnetic electron energy equivalent circuit example finite flux density frequency function Gauss's law given group velocity impedance incident inductance infinite input integral Laplace's equation line charge line integral loop losses magnetic field magnitude material Maxwell's equations mode normal obtained permittivity phase velocity plane wave polarization potential Poynting vector Prob problem propagation radiation radius ratio rectangular reflected wave reflection coefficient region relation resonant result scalar shown in Fig sinusoidal solution space spherical surface transmission line transverse traveling wave uniform plane wave unit length vector voltage wave impedance waveguide wavelength zero