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Why is it that mechanical waves/longitudinal waves/sound travel faster in a dens

ID: 1325769 • Letter: W

Question

Why is it that mechanical waves/longitudinal waves/sound travel faster in a denser/stiffer medium as in steel compared to say air, while EM waves/trasverse waves/light travels slower in a (optically) denser medium as in say glass?

Any physical interpretation might be helpful.

EDIT: What I understand from this is that, since higher tension implies stronger intermolecular interaction, which leads to better conveyance of energy across the material which causes the waves to move faster. But this analogy doesn't fit at all for light waves. Why?

Why is it that mechanical waves/longitudinal waves/sound travel faster in a denser/stiffer medium as in steel compared to say air, while EM waves/trasverse waves/light travels slower in a (optically) denser medium as in say glass? I know that for mechanical waves, c root 1/epsilon0mu0 Any physical interpretation might be helpful. EDIT: What I understand from this is that, since higher tension implies stronger intermolecular interaction, which leads to better conveyance of energy across the material which causes the waves to move faster. But this analogy doesn't fit at all for light waves. Why? v root T, where T stands for Tension and

Explanation / Answer

The reason is that EM weves don't really propagate through matter -- they exists in vacuum and go with c there, and they interact with matter by being absorbed and re-emitted by the particles of the medium. This only looks like they were slowed down from the macroscopic perspective.

Mechanical weaves exist as a form of particle motion, and their speed roughly depends on how easily the distortion can propagate from one particle to another.
If you look at the weave equation, the speed is a square root of the stuff multiplying spatial derivative (connected with the strength of particle motion coupling) divided by the stuff multiplying temporal derivative (connected with the inertia of particles). How this is connected to the density depends on the medium and weave type.

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