Engineering electromagnetic fields and waves
Presents the introductory theory and applications of Maxwell's equations to electromagnetic field problems. Unlike other texts, Maxwell's equations and the associated vector mathematics are developed early in the work, allowing readers to apply them at the outset. Its unified treatment of coordinate systems saves time in developing the rules for vector manipulations in ways other than the rectangular coordinate system. The following chapters cover static and quasi-static electric and magnetic fields, wave reflection and transmission at plane boundaries, the Poynting power theorem, rectangular waveguide mode theory, transmission lines, and an introduction to the properties of linear antennas and aperture antennas. Includes an expanded set of problems, many of which extend the material developed in the chapters.
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Vector Differential Relations and Maxwells Differential Relations
10 other sections not shown
amplitude antenna aperture applied assuming attenuation becomes boundary conditions capacitance charge density circuit circular cylindrical closed surface coaxial line complex constant core cross-section curl current density defined denotes depicted in Figure dielectric dipole direction electric and magnetic electric field electromagnetic electron electrostatic energy equipotential equivalent Example expression factor ferromagnetic field components field point Find follows free space frequency function given inductance interface line integral linear load loop lossless line magnetic field magnetic flux material Maxwell's equations negative normal obtained parameters perfect conductor phase velocity plane wave polarization positive potential power-flux Poynting vector Problem propagation reflection coefficient result scalar Section self-inductance shown in Figure sinusoidal Smith chart standing wave static tangential TE10 mode theorem time-average time-varying transmission line traveling wave uniform plane wave unit vectors vector field volume wave equation wave impedance waveguide wavelength wire yields zero
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Advances in the Flow and Rheology of Non-Newtonian Fluids, Part 1
Dennis A. Siginer
No preview available - 1999