Applied ElectromagnetismIn their successful text, Shen and Kong cover fundamentals of static and dynamic electromagnetism fields and waves. The authors employ a unique approach, beginning with a study of Maxwell's equations and waves and covering electromagnetic fields later. This presentation allows students to work with electromagnetic concepts using relatively simple computational analysis, building in a logical progression to more complex topics and mathematical methods for analysis. The Third Edition provides computer-based problems, homework problems, end-of-chapter summaries, and a rich collection of real-world application examples that include discussion of cellular phone and microwave exposure limits set by IEEE; safety concerns about electromagnetic fields from power lines; new and powerful magnets; and single-mode optical fibers. |
Contents
Complex Vectors Chapter | 1 |
Maxwells Equations | 20 |
Reflection and Transmission of Waves | 69 |
Copyright | |
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â direction Ampère's law amplitude angle antenna approximately array Assume axis beam boundary conditions calculate capacitance capacitor circuit coaxial line coil component Consider constant coordinates core coulombs cylindrical density dielectric dipole dipole antenna E field electric field electromagnetic fields electromagnetic waves electron electrostatic equal to zero Example Find force frequency function given H field H₁ H₂ impedance inductance integral k₂ load loop magnetic field magnetic flux magnetostatic field Maxwell's equations medium meter mode Note obtain parallel-plate waveguide particles pattern perfect conductor permittivity phasor plane wave point charge polarized potential Poynting vector problem propagation pulse R₁ radiation radius rectangular waveguide reflection coefficient region rotor shown in Figure Smith chart solenoid Solution spherical surface time-average time-harmonic torque transmission line uniform plane wave V₁ vector velocity voltage waveguide wavelength Wb/m² wire