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How does the color of light affect the angle of refraction in glass? 

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The color of light influences the angle of refraction in glass due to the varying wavelengths and frequencies of light rays. Traditional prisms separate white light into its spectral components based on their wavelengths, with shorter wavelengths refracted more than longer ones . Glass color, on the other hand, results from the absorption and emission of electron clouds of constituent ions when irradiated by white light, leading to colored residual light due to absorbed wavelengths . Additionally, using a monochromatic laser beam on glass beads can produce rainbows, with the scattering intensity distribution affected by the refractive index and glass bead size, influencing the deviation angles . These interactions showcase how the color of light impacts refraction angles in glass through various optical phenomena.

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The color of light does not directly affect the angle of refraction in glass; instead, the refractive index, glass bead size, and incident beam width influence the refraction angles.
The color of light affects the absorption and emission of electron clouds in glass, influencing its color. However, the angle of refraction in glass is not directly impacted by the color of light.
In glass, shorter wavelength colors are more refracted than longer ones. However, a metamaterial prism can exhibit anomalous dispersion, where shorter wavelength colors are less refracted than longer ones.
The color of light affects the angle of refraction in glass due to variations in wavelength and frequency, causing different refractive indices and resulting in the dispersion of colors.
The color of light affects the angle of refraction in glass by creating a colorful pattern on the conical surface through refraction, providing a three-dimensional image.

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