Suppose a planet's atmosphere has an index of refraction that depends on height (which we can express as n = n(h). At height h above the surface, n = 1.00. At the surface of the planet, n=nS. If a light ray enters the atmosphere at height h, how long does it take it to reach the surface?

Suppose a planet's atmosphere has an index of refraction that depends on height (which we can express as n = n(h). At height h above the surface, n = 1.00. At the surface of the planet, n=nS. If a light ray enters the atmosphere at height h, how long does it take it to reach the surface?

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Suppose a planet's atmosphere has an index of refraction
that depends on height (which we can express as n = n(h).
At height h above the surface, n = 1.00. At the surface of
the planet, n =nS. If a light ray enters the atmosphere at
height h, how long does it take it to reach the surface?

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Step 1: Refractive index as a function of height.

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