Electromagnetic Field Theory and Transmission Lines
Electromagnetic Field Theory and Transmission Lines is an ideal textbook for a single semester, first course on Electromagnetic Field Theory (EMFT) at the undergraduate level. This book uses plain and simple English, diagrammatic representations and real life examples to explain the fundamental concepts, notations, representation and principles that govern the field of EMFT. The chapters cover every aspect of EMFT from electrostatics to advanced topics dealing with Electromagnetic Interference (EMI)/Electromagnetic Compatibility (EMC), EMC standards and design methods for EMC. Careful and deta.
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Ampere's circuit law angle antenna boundary conditions capacitance capacitor characteristic impedance coaxial cable coil components conductor Coulomb's law current element cut-off frequency defined dielectric dielectric material differential displacement current electric and magnetic electric field electric flux density energy stored field due force free space Gauss's law given half wave dipole Hence proved incident inductance input impedance integral length line charge loop magnetic field magnetic flux density magnetic potential Maxwell's equations medium mode parallel plates phase constant point charge polarisation Poynting vector Problem propagation constant rad/m radiated power radiation resistance radius rectangular waveguide reflection coefficient resonant scalar shown in Fig Solution stub susceptibility theorem TM wave transmission line uniform plane wave unit vector magnetic potential velocity of propagation voltage volume charge density VSWR wave equations waveguide Yes/No z-direction zero