In other words, materials have a range of optical densities corresponding to different wavelengths. The amount of light absorbed by the refractive material depends on the wavelength of the light. The more optically dense a material is, the higher the index of refraction. The term used to measure the ratio of the speed of light in a vacuum, c, to the speed of light in a medium, v, is called the index of refraction: n=c/v, and it is also an indication of the optical density of a material. While light travels at about \(3 x 10^ m/s\) in a vacuum, it travels slower through any medium, depending on the optical density. The higher the optical density of a material, the slower light is able to pass through it. Refractive materials are described by their optical density, which is a measure of how much of the light gets absorbed by atoms in the material. They refract again once they leave the prism due to the differences in refractive properties between air and the prism. Shorter wavelengths (violet) get refracted more than the longer wavelengths (red). When white light hits the refracting surface, the different colors of light separate because of their differing wavelengths. Let’s take a look at each of them separately.ĭispersion occurs when light of different wavelengths, such as white light, hits a refracting surface, like a prism. Let’s get started!ĭispersion and diffraction are each descriptions of light interacting with matter in different ways, and both can be used to separate light of multiple wavelengths. Hi, and welcome to this video on the diffraction of light waves! In this video, we will compare and contrast diffraction and dispersion and take a look at how diffraction gratings work.
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