This lecture covers the propagation of current density in conductors, discussing the conductivity and solutions for the electric field along the z-axis. It also explores the concept of attenuation and oscillation in wave propagation.
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Explores the wave equation for electromagnetic fields, the propagation of electromagnetic waves, the fundamental velocity of light, and the concept of polarization.
Explores electromagnetic wave properties, polarization, and practical applications, emphasizing the relationship between electric field intensity and light intensity.
Explores solutions and examples for multiconductor transmission lines, covering line parameters, wave propagation, inductance, capacitance matrices, and modal wave equations.
