In this episode of The Dead Scientists, we dive into the intriguing world of light polarization, as explained by Richard Feynman in The Feynman Lectures on Physics. Feynman introduces the different types of polarization—linear, circular, and elliptical—defined by the oscillation pattern of the electric field, and illustrates how these forms of polarization appear in real-world phenomena.

We’ll explore how polarization arises in light scattering, where light interacts with charged particles in the air, and the fascinating phenomenon of birefringence, where the refractive index changes based on polarization direction, demonstrated by materials like cellophane and Kerr cells. Feynman also introduces us to polarizers, such as tourmaline and polaroid, which selectively absorb light depending on its polarization.

Delve into the phenomenon of optical activity, where the polarization plane rotates as light passes through substances with asymmetric molecules, and uncover Fresnel’s reflection formulas, which describe the intensity of reflected light based on its polarization.

Whether you're a physics enthusiast or simply curious about how light interacts with the world around us, this episode provides a clear and accessible exploration of light polarization, from scattering and birefringence to polarizers and optical activity, guided by Feynman’s signature clarity and insight.