Elements of engineering electromagnetics
This book, with its versatile approach, includes thorough coverage of statics with an emphasis on the dynamics of engineering electromagnetics. It integrates practical applications, numerical details, and completely covers all relevant principles.Topics include vectors and fields, Maxwell's Equations, fields and waves, electromagnetic potentials, devices, circuits, and systems, and transmission-line essentials for digital electronics. The second part of the book covers communications, guided wave principles, electronics and photonics, and radiation and antennae.A valuable resource for computer engineering and electrical engineering professionals.
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Vectors and Fields
Maxwells Equations in Integral Form
Maxwells Equations in Differential Form
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Ampere's circuital law amplitude antenna axis boundary conditions capacitance cavity resonator characteristic impedance charge density closed path computation constant coordinate system corresponding curl current density current sheet cutoff dielectric dielectric slab differential form direction Discuss distance electric and magnetic electric field intensity electromagnetic equal example field due FIGURE free space frequency given hence Hertzian dipole incident induced infinite plane infinitely long input Laplace's equation Let us consider line integral line voltage load loop magnetic field Maxwell's equations medium modes normal obtain pattern perfect dielectric permittivity phase velocity plates point charge polarization potential power flow Poynting vector Problem pulse radiation rectangular region scalar Section shown in Fig sinusoidal Smith chart solution surface integral test charge time-average power time-varying transmission line transmission-line uniform plane wave unit length unit vector vector field voltage and current waveguide wavelength wire z-axis z-direction zero