In this episode of The Dead Scientists, we explore the intricate world of electromagnetic wave interference. Starting with the concept of retarded acceleration and its impact on the electric field of a moving charge, Feynman delves into the mathematical tools necessary for understanding wave propagation, such as wave number and wavelength.

Focusing on interference patterns, Feynman unravels the complexity of waves emitted from multiple sources and demonstrates how the energy carried by these waves relates to the square of the electric field, governed by the inverse square law. Through trigonometric, geometrical, and analytical approaches, Feynman breaks down the formation of interference patterns from two dipole oscillators.

Join us as we analyze various scenarios where phase differences and spatial separation of sources create constructive or destructive interference, shaping the intensity patterns of waves. Whether you're a physics enthusiast or curious about the mathematics behind interference, this episode offers a clear and engaging look into the beauty of wave behavior and interference, all through Feynman’s exceptional teaching style.