My original idea was is something like this:
@Gulliver (who sucks):
Finally, you've posted the true solution.
Now, as you all know, light bends in gravitational fields. Maybe the UA has something to do with strange "refractive properties" of the atmolayer on a FE?
EDIT:
Sure, we can always define a different physical quantity (RD, or molar refraction in our case by the formula RD = (n2 - 1)/(n2 + 2) M/ρ) and make an unfounded assumption about it (which is that RD does not change with temperature and density) and that would prove our point, but the fact remains that you used an assumption which you haven't proven.
As a REer, I'm glad to see FE resort to a new unexplained physical quantity to explain obsersavtions. Since RE has a simpler explanation with known physics, we must prefer RE over FE in this round as well. So I won't bother to debate your new invention. (Though you might want to define n in your equation)
Don't be an obtuse SoB. It is you who posted the link pointing to the Lorentz - Lorenz formula:
...
We know: "The refractive index increases as pressure increases, due to the resulting increase in density." Please reference: http://www.pirika.com/chem/TCPEE/RI/ourRI.htm.
Why do I have to define refractive index (labeled by n)? Also, you did not answer the question:
Looking at the Lorentz - Lorenz equation, we may ask the following question:
What is the refractive index of the medium when the density becomes:
ρc = M/RD
Insted of using RD, we can use the parameter ρc (since the molar mass M is constant) and rewrite the Lorentz - Lorenz equation in the form:
ρ/ρc = (n2-1)/(n2+2)
Now, answer objectively or else go worhip St. Fu.
Of course, we've agreed that original idea is faulty, so I won't comment on its faults.
Defining variables in your posts is a courtesy to your readers. I may have overstepped my role. Clearly your parents fill the role of explaining manners and their importance to you. I apologize.
I don't see where you've asked me a question. If you wish me to answer your hypothetical, apparently rhetorical, question, I decline. It's your theory, so I'll leave you to develop it to compete with Snell's Law.