Introduction to vector analysis and coordinate systems, static electric field, electric field intensity vector, the curl and divergence, Coulombs Law, Gauss's law in differential and integral forms, the potential integral, gradient of the potential function, Maxwell's equations in integral and differential form, conductor properties, boundary conditions, solution of Poisson and Laplace equations, the theory of images, steady electric current, conservation of charge and the continuity equation, force and torque on current-carrying circuits, boundary conditions, Poynting theorem, retarded potentials, wave equation, uniform plane wave propagation, the uniform damped and undamped plane waves, the skin effect, reflection of plane waves (conductors and dielectrics), the normal incidence case, transmission lines, telegraph equations, TEM waves along the transmission line, current relations.

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