Engineering Electromagnetics
Course Code: CSE 5017
Course Type: n/a
Credit: 3.00
Credit Hour: 3.00
Prerequisite: n/a
Static and low-frequency electric
fields: Static E fields in Cartesian and cylindrical coordinates, Gauss's Law ,
Electrostatic energy; Static and low-frequency magnetic fields: Static H fields
in Cartesian and cylindrical coordinates Stokes's Theorem, Ampere's Law ,
Kirchhoff's Laws, Maxwell's Equations in differential form: Cartesian and
cylindrical coordinates , Circuit electromagnetics, Maxwell's equations as a
linear, shift-invariant system; Plane waves: Single-frequency solution of
linear, shift-invariant system , ,Standing waves, The scalar wave equation,
Traveling waves, Visualization of traveling vector waves, Wave properties; Wave
solutions of Maxwell's Equations in space: Circular and elliptical
polarization, The Poynting vector, Circuits and waves; Transmission lines:
Waves on transmission lines, Characteristic impedance, Equivalent circuit of a
transmission line, Reflection of waves
at a discontinuity; Radiation and antennas: Simulation of radiation by a moving
charge, The Hertzian dipole, Various types of antennas, Antennas in receiving
mode, Effective area of an antenna, Matched load with complex impedance, Friis
transmission formula, Dipole antennas of length comparable to, or greater than,
the wavelength, Poynting vector for a general dipole antenna, Antenna arrays
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