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Delves into the detection and analysis of gravitational waves through practical exercises and discussions on black hole mergers and wave speed measurement.
Explores radiation sources, including fast electron sources, heavy charged particle sources, and neutron sources, covering processes like beta decay, internal conversion, and Auger electrons.
Covers the derivation of field-to-transmission line coupling equations and the significance of differential mode and common mode currents on radiated emissions.
Explores the emission of thermal radiation, covering mechanisms, electromagnetic radiation, temperature relationship, spatial distribution, and black-body radiation.
Delves into the historical development and significance of quantum physics, highlighting the failure of classical physics and the key Schtenger-Lach experiment.
Explores the optical properties of materials, including reflection, refraction, absorption, and transmission, as well as the behavior of light in optical fibers.
