Fundamentals of Applied Electromagnetics
Widely acclaimed both in the U.S. and abroad, this reader-friendly yet authoritative volume bridges the gap between circuits and new electromagnetics material. Ulaby begins coverage with transmission lines, leading readers from familiar concepts into more advanced topics and applications. Includes six new sections on Waveguides and Cavity Resonators, replacing the material on geometric optics in Chapter 8. Presents new Technology Briefs on relevant topics, connecting concepts in the book to everyday applications found in real life, such as liquid crystal displays, the laser, GPS, and x-ray tomography. Includes an interactive CD-ROM that allows readers to gain physical intuition about electromagnetics. A useful reference for engineers.
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Waves and Phasors
Timeline for Electromagnetics in the Classical
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amplitude angle antenna applied array Biot-Savart law boundary conditions capacitance capacitor Cartesian coordinates characteristic impedance charge density charge q circuit coaxial components conducting coordinate system corresponding Coulomb's law current density current flowing cylindrical defined Determine dielectric differential dipole direction distance distribution electric and magnetic electric field electromagnetic electron electrostatic energy equal equations Example expression Figure force free space frequency function Gauss's law given by Eq Hence incident wave induced input impedance integral length load impedance loop lossless lossless line lossless transmission line magnetic field magnitude material medium normalized permittivity perpendicular phase velocity phasor plane wave polarization power density quantities radar radiation radius ratio rectangular reflection coefficient right-hand rule rotation scalar shown in Fig Smith chart Solution standing-wave surface time-varying transmission line transmitted unit vector voltage wave propagation wave traveling waveguide wavelength wire x-y plane z-direction zero