In this episode of The Dead Scientists, we delve into the phenomenon of radiation damping as explained by Richard Feynman in The Feynman Lectures on Physics. Feynman unravels the energy loss associated with accelerating charges, starting with the concept of radiation resistance—the work required to accelerate a charged particle, which leads to the radiation of energy.
We’ll explore the derivation of the formula for total radiated power in non-relativistic motion and how this energy loss gives rise to radiation damping. Feynman shows how this damping limits the lifetime of oscillating charges, such as those within atoms, and reveals that atomic oscillators typically radiate for about 10^-8 seconds, determined by the Q-factor.
The episode also dives into the scattering of light, illustrating how atoms act as secondary radiation sources when illuminated, leading to the stunning blue color of the sky. Feynman explains how scattering intensity increases when light interacts with clusters of atoms, such as the water droplets in clouds, enhancing the effect.
Whether you're fascinated by the physics behind everyday phenomena or just curious about the life of oscillating atoms, this episode offers a captivating journey through radiation damping, light scattering, and the deeper reasons behind the colors we see in the sky, all through Feynman’s clear and engaging explanations.

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