26.4 Polarization and the Reflection and Refraction of Light

Physics Demos

4 Jan 201804:11

Summary

TLDRThis script delves into the concept of light polarization through Brewster's law, which explains how light becomes polarized when reflected at a specific angle off surfaces. It discusses the practical application of this principle in polaroid glasses, which block horizontally polarized light, enhancing vision on rainy days by reducing glare. The instructor uses Snell's law to derive Brewster's angle, which is crucial for achieving total polarization, and provides an example using the indices of refraction for air and water.

Takeaways

🌟 Reflection and scattering of light off particles or surfaces can lead to polarization.
🔍 Brewster's law is the principle behind polarized light, which is used in polaroid glasses.
📐 When the reflected and refracted rays are at a 90-degree angle to each other, the reflected light is polarized horizontally.
🕶️ Polaroid glasses with vertically polarized lenses can block horizontally polarized light, reducing glare on reflective surfaces.
🌧️ Wearing polarized sunglasses on a rainy day can make the ground appear strange due to the reduction of reflected light.
📚 The concept of Brewster's angle is derived from Snell's law and involves the ratio of indices of refraction.
📐 Brewster's angle (θB) is the angle of incidence at which the reflected light is completely polarized.
🧭 To calculate Brewster's angle, you need the ratio of the indices of refraction of the two media involved (e.g., air and water).
📐 The tangent of Brewster's angle is equal to the ratio of the indices of refraction of the second medium to the first.
📊 The angle can be found using the inverse tangent function of the refraction ratio.
👓 The effect of polarized glasses is noticeable in everyday situations, such as reducing glare from wet surfaces.

Q & A

What is the main topic discussed in the script?
-The main topic discussed in the script is Brewster's law, which explains the polarization of light when reflected off surfaces at a specific angle.
How does Brewster's law relate to polaroid glasses?
-Brewster's law is the basis for the polarization in polaroid glasses. These glasses use the law to block horizontally polarized light, reducing glare from surfaces like water or glass.
What is the condition for the reflected and refracted rays to cause polarization according to Brewster's law?
-According to Brewster's law, the reflected and refracted rays must be 90 degrees apart for the reflected light to be polarized.
What happens when the reflected light is polarized?
-When the reflected light is polarized, it vibrates in a single horizontal plane, blocking out other orientations of light and reducing glare.
Why do surfaces appear different when viewed through polarized sunglasses on a rainy day?
-On a rainy day, the ground and other wet surfaces reflect a lot of light, which is horizontally polarized. Polarized sunglasses block this light, making the surfaces appear different or less reflective.
What is the significance of the angle between the reflected and refracted rays being 90 degrees?
-When the angle between the reflected and refracted rays is 90 degrees, it is known as the Brewster angle, and at this angle, the reflected light is completely polarized.
How can one calculate Brewster's angle?
-Brewster's angle can be calculated using the ratio of the indices of refraction of the two media involved. The tangent of Brewster's angle (θ_B) is equal to the ratio of the refractive indices (n2/n1).
What is the effect of wearing vertically polarized sunglasses?
-Wearing vertically polarized sunglasses will block all the horizontally polarized light, reducing glare from surfaces and making the environment appear less reflective.
Why might the ground look 'weird' or 'not real' when wearing polarized sunglasses?
-The ground may look 'weird' or 'not real' because the polarized sunglasses are filtering out the horizontally polarized light that usually contributes to the surface's reflective appearance.
Is it possible to always be exactly at the Brewster angle in real-life situations?
-No, it is not possible to always be exactly at the Brewster angle in real-life situations. The angle of incidence will typically be slightly larger or smaller than the Brewster angle.
What is the relationship between Snell's law and Brewster's law?
-Snell's law describes the refraction of light, while Brewster's law is derived from it and specifically addresses the polarization of light at a certain angle of incidence, known as the Brewster angle.