Really? How so? I haven't heard that. I read about Lebed challenging whether e=mc^2 works in space back in January, where he said that gravitational mass may not always equal inertial mass. But I haven't heard any other counterarguments for e=mc^2.
Oh, I'm sorry. I should have put that in my post. It is his theory of E=MC squared. His theory just doesn't work out when applied to quantum math.
They really are interesting. Honestly, it's what I do with most of my free time lol-- read up on random topics from .edu sites, studies, and articles. I figure that I should never stagnate in my lifelong education. Which Einstein theory do you mean? Einstein definitely didn't agree that the Heisenburg uncertainty principle was an integral part of physics (surprise, thank you quantum!), but I'm not sure which of his theories you're referring to as being thrown out.
Oooooooooohh >> Those are so deep! And quite informational too I might add. :) Did you know that in Quantum math, the Einstein thoery is thrown out?
Quantum mechanics! It's SO fascinating :) Or immunology. I've been reading quite a bit about that lately.