ANSWERS: 4

Close, Scott: S=Akc^3/(4 hbar G) http://www.equationsheet.com/eqninfo/Equation176.html I can try to find the meanings of each variable, but I don't recall all of them. It's actually far outside my normal level of physics knowledge.

This is a statement on the entropy of black holes. k is Boltzmann's constant, c is the speed of light, hbar is plank's constant divided by 2 pi, G is Newton's gravitational constant and A is the surface area of the black hole's event horizon. Notice that this means that the entropy of a black hole is proportional to the surface area of it's event horizon, rather than the volume it encloses as would normally be expected.

Paradox S=C3A/4hG (space/time end and matter is crushed out of existence) vs. Infinite #s of Parallel Universes, I'm pretty sure it's the formula describing a black hole. S=Akc^3/(4 hbar G) Well, more exactly the entropy of black holes. k is Boltzmann's constant, c is the speed of light, hbar is plank's constant divided by 2 pi, G is Newton's gravitational constant and A is the surface area of the black hole's event horizon. Oh, most importantly, the thingy that makes this a paradox is the entropy of a black hole is proportional to the surface area of it's event horizon, rather than the volume it encloses as would normally be expected. Simple. Beautiful. That's physics for ya. PS this Paradox is conceived under the "point particle" physics that works whitin the current (and forever used it seems) of the "Standard Model" physics. (I prefer "String Theory" derived) and assumes sub atomic particles are constructedd of seperate (atoms and such) instead of one contiuous "String" vibrations. I like the latter better because not only does it eliquently describe the mathamatics inside our universe, but it does so without running into those pesky "infinities and anomolies" that riddle the former doctrine. So there. :+

"The black hole information paradox results from the combination of quantum mechanics and general relativity. It suggests that physical information could "disappear" in a black hole. It is a contentious subject since it violates a commonly assumed tenet of science—that information cannot be destroyed." "The entropy of a black hole is given by the equation: S=c³kA/4Ä§G where S is the entropy, c is the speed of light, k is Boltzmann's constant, A is the surface area of the event horizon, Ä§ ("hbar") is the reduced Planck's Constant (or Dirac's Constant) and G is the gravitational constant." Source and further information: http://en.wikipedia.org/wiki/Black_hole_information_paradox
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