Ondas e luz: Dispersão da luz | Física

Como é bom ser nerd - Pura Física

9 Jul 201915:37

Summary

TLDRIn this video lesson, the concept of light dispersion is explained, focusing on how white light is separated into its constituent colors when passing through a prism. The process is driven by refraction, where different colors of light travel at different speeds in a material, leading to varying degrees of bending. Newton's famous experiment with a prism demonstrated the separation of colors, and the video details how higher frequency colors like violet bend more than lower frequency colors like red. This fundamental concept is crucial for understanding optical phenomena and solving related questions in physics exams like the ENEM.

Takeaways

😀 Dispersion of light refers to the separation of white light into its individual colors when passing through a medium like a prism.
😀 White light is a mixture of all visible colors (red, orange, yellow, green, blue, indigo, violet), which can be separated through dispersion.
😀 The phenomenon of light dispersion occurs because different colors (frequencies) of light refract (bend) by different amounts as they pass through a material.
😀 The process of refraction happens when light enters a medium with a different refractive index, causing it to slow down and change direction.
😀 The speed of light in a material depends on its frequency, with higher-frequency light (violet) traveling slower and lower-frequency light (red) traveling faster.
😀 The refractive index of a material varies for different frequencies of light. Higher frequency light has a higher refractive index and is slowed more.
😀 Red light, having the lowest frequency, refracts the least and retains the most speed, while violet light, with the highest frequency, refracts the most and slows down the most.
😀 Refraction causes light to deviate from its original path, and this deviation is more pronounced for higher-frequency (blue/violet) light.
😀 A prism separates white light into its colors because of two refractions: the initial entry causes some colors to bend more than others, and the second refraction further accentuates this separation.
😀 The key takeaway for solving related problems is understanding that different colors of light travel at different speeds in materials, causing varying degrees of refraction and thus dispersion.

Q & A

What is the dispersion of light?
-The dispersion of light is the separation of a beam of white light (which is a mixture of many colors) into its individual colors due to differences in their wavelengths.
Who first discovered the dispersion of light, and how?
-Isaac Newton discovered the dispersion of light by passing a beam of white light through a prism, which separated the light into its constituent colors.
What are the main colors of light that form white light?
-The main colors of light that form white light are red, orange, yellow, green, blue, indigo, and violet.
How does refraction contribute to the dispersion of light?
-Refraction causes light to change speed as it passes from one medium to another. Since different colors of light have different wavelengths, they refract by varying amounts, leading to the dispersion of light.
What happens to the speed of light in a material compared to in a vacuum?
-In a material, the speed of light is slower than in a vacuum. The speed of light in a material depends on the refractive index of the medium.
How do different frequencies of light behave in a material?
-Different frequencies of light travel at different speeds in a material. Higher frequency (violet) light travels slower and has a higher refractive index, while lower frequency (red) light travels faster.
What does a higher frequency of light mean in terms of speed and refraction?
-A higher frequency of light means slower speed in a material and greater refraction. Violet light, for example, has a higher frequency than red and thus bends more when passing through a medium.
How does the dispersion of light create a spectrum?
-The dispersion of light creates a spectrum because each color bends by a different amount as it passes through a medium. The result is the separation of light into its individual colors, forming a visible spectrum.
Why does red light bend less than violet light when passing through a prism?
-Red light has a lower frequency and a higher speed in the material compared to violet light. Therefore, it refracts less, meaning it bends less when passing through a prism.
How does the structure of a prism influence the dispersion of light?
-A prism has angled surfaces that cause light to bend upon entering and exiting. The difference in refractive indices for different wavelengths causes the light to separate into its component colors, with higher frequency colors bending more than lower frequency colors.