Does the Speed of EM in a Medium Vary for Different Wavelengths?

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The speed of electromagnetic (EM) waves in a medium varies with wavelength, meaning different wavelengths travel at different reduced speeds. This phenomenon, known as dispersion, is illustrated by how prisms refract light, causing various colors to emerge. For instance, in a glass medium, shorter wavelengths like violet are observed before longer wavelengths like red. The variation in speed is attributed to the polarization of atoms in the medium, which creates an internal electromagnetic field that interferes with the incoming wave. Thus, the propagation velocity of EM waves is significantly influenced by both the frequency and the material through which they travel.
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Visible light propagates at less than c in water.

What about other wavelengths of EM? Do they all travel at the same reduced speed? I think not, but am not sure. If they travel at different speeds then Suzanna can be seen comin' round the mountain in certain wavelengths before others.
 
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ImaLooser said:
Visible light propagates at less than c in water.

What about other wavelengths of EM? Do they all travel at the same reduced speed? I think not, but am not sure.

Not at the same reduced speed. This is how a prism splits light up. Different wavelengths are refracted differently.

If they travel at different speeds then Suzanna can be seen comin' round the mountain in certain wavelengths before others.

If the mountain is a prism, you'll see multiple Suzannas split into all the colours of the rainbow.
 
krd said:
Not at the same reduced speed. This is how a prism splits light up. Different wavelengths are refracted differently.



If the mountain is a prism, you'll see multiple Suzannas split into all the colours of the rainbow.

If the mountain is of glass and Suzanna suddenly materializes behind it, then you will see the a violet Suzanna first. If she then dematerializes, you see the red Suzanna last.
 
The propagation velocity depends on the frequency and the material very significantly. Essentially, the delay in propagation in medium is caused by this process: the EM wave perturbs the atoms, they get "polarized", which creates internal EM field that interfers with the incoming EM, and the combined EM appears to travel slower. Obviously, this process depends on the material and the incoming radiation.
 

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