In 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.
24 pages matching magnetostatic field in this book
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Complex Vectors Chapter
Maxwells Equations Chapter 2
Uniform Plane Waves Chapter 3
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admittance amplitude angle approximately array Assume axis beam boundary conditions calculate capacitance capacitor cavity characteristic impedance circuit coaxial line coil complex components Consider constant coordinates coulombs cylindrical density dielectric dipole antenna direction electric field electromagnetic fields electromagnetic waves electron energy equal to zero Example force free space frequency function given H field incident wave integral laser light loop magnetic field magnetostatic field magnitude maximum Maxwell's equations medium meter microwave Note obtain parallel parallel-plate waveguide particles perfect conductor permittivity perpendicular phase phasor plane wave point charge positive potential Poynting vector problem pulse radar radius rectangular waveguide reflected wave reflection coefficient region result scattering shown in Figure shows signal Smith chart Solution sphere spherical surface TE10 mode time-harmonic transmission line transmitted uniform plane wave unit vector velocity voltage wave propagates waveguide wavelength wire