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Delves into the historical development and significance of quantum physics, highlighting the failure of classical physics and the key Schtenger-Lach experiment.
Explores the application of Maxwell's equations to antennas, covering radiation, Poynting vector, potentials, source currents, diffraction, and wave polarization.
Explores classical field theory, focusing on Lagrangian formulation and the Euler-Lagrange equations, emphasizing the property of locality in spacetime.
Explores the interaction of radiation with matter, covering ionization, excitation, deexcitation, bremsstrahlung, Cherenkov radiation, and stopping power.
Demonstrates various antenna characteristics, signal modulation, reception, polarization, diffraction, and circular polarization advantages in satellite communications.
