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When light reaches a boundary between materials below the critical angle, some of it refracts and some of it reflects. For example, glass acts as a partial mirror with a dark background.

Assuming no light is lost in the process, how much of total light in the incident ray is refracted as a function of $\theta_1$ (but of course $\theta_c ,n_1,n_2$ and other properties of the materials will probably matter too (whether the reflection was hard or soft, for instance)).

Intuitively, the amount refracted seems to be maximum when $\theta=0$, so perhaps $A\cos(\pi\frac{\theta}{\theta_c})$ is a viable function for the fraction refracted when $\theta > \theta_c$.

I hope there's an explanation that doesn't explain this away with a single experimental constant associated with each material (that is, is theoretically derived).

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up vote 4 down vote accepted

You are looking for the Fresnel equations. (See, e.g., http://physics.gmu.edu/~ellswort/p263/feqn.pdf for a derivation.)

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