Fundamentals of Electromagnetics 2: Quasistatics and WavesThis book is the second of two volumes which have been created to provide an understanding of the basic principles and applications of electromagnetic fields for electrical engineering students. Fundamentals of Electromagnetics Vol 2: Quasistatics and Waves examines how the low-frequency models of lumped elements are modified to include parasitic elements. For even higher frequencies, wave behavior in space and on transmission lines is explained. Finally, the textbook concludes with details of transmission line properties and applications. Upon completion of this book and its companion Fundamentals of Electromagnetics Vol 1: Internal Behavior of Lumped Elements, with a focus on the DC and low-frequency behavior of electromagnetic fields within lumped elements, students will have gained the necessary knowledge to progress to advanced studies of electromagnetics. |
Contents
Resistive Terminations | 28 |
4 | 42 |
6 | 49 |
Transmission Lines | 79 |
The Smith Chart | 131 |
Transmission Line Circuits | 151 |
Vector Identities | 169 |
Vector Calculus | 175 |
Author Biography | 185 |
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Common terms and phrases
admittance Ampere's law amplitude attenuation behavior book Mobk081 August boundary calculated capacitive capacitor characteristic impedance component conductor coordinate current density current flow cylindrical dielectric differential electric and magnetic electrodes equations Example expressed Ezaz Faraday's law field intensity FIGURE frequency incident and reflected incident wave inductance inductor input impedance integral line length load impedance lossless lossy lumped element magnetic energy magnetic flux matched material Mobk081 August 13 order current order magnetic field phase phasor phasor form plane wave positively propagating Poynting's vector propagation constant quarter-wave transformer reactance reflected voltage reflected wave reflection coefficient region represents resistance resistor second order short circuit shown in Fig signal skin depth Smith chart solution ẞd time-varying transmission line transmitted wave tuner voltage and current voltage drop VSWR VSWR circle wave impedance wave propagating wavelength wire z-direction