Field and Wave ElectromagneticsRespected for its accuracy, its smooth and logical flow of ideas, and its clear presentation, "Field and Wave Electromagnetics" has become an established textbook in the field of electromagnetics. This book builds the electromagnetic model using an axiomatic approach in steps: first for static electric fields, then for static magnetic fields, and finally for time-varying fields leading to Maxwella s equations. This approach results in an organized and systematic development of the subject matter. Applications of derived relations to fundamental phenomena and electromagnetic technologies are explained." |
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angle antenna Assuming attenuation constant B₁ boundary conditions C₁ capacitance capacitor Cartesian coordinates characteristic impedance charge density charge Q circuit components conducting plane conductor constant coordinate system Determine differential dipole direction distance electric field intensity electromagnetic electrons electrostatic energy equations EXAMPLE expression FIGURE free space frequency function Gauss's law given in Eq incident input impedance integral interface intrinsic impedance Laplace's equation line charge load impedance loop lossless line lossy magnetic field intensity magnitude mode normal obtain P₁ parallel-plate permittivity perpendicular phase phasor plane wave plates point charge polarization potential Poynting vector problem R₁ radiation radius rectangular reflected wave region resistance scalar short-circuited shown in Fig Smith chart Solution spherical terminated theorem transmission line uniform plane wave unit length V₁ vector field velocity voltage volume wave impedance waveguide wavelength wire z-direction Z₁ zero