It defined a direct correlation between matter and energy.
Albert Einstein.
No. E = mc2 is not the same as E = (mc)2 which is what the question suggests. Also, if you know E, why do you need to square anything to "get" E?
He did not use any databases to come up with E=mc^2.
The correct formula is E = MC².
E=mc squared
Yes. Yes it does.
E= MC square
e= mc square!
Albert Einstein.
No. E = mc2 is not the same as E = (mc)2 which is what the question suggests. Also, if you know E, why do you need to square anything to "get" E?
He did not use any databases to come up with E=mc^2.
haricot beans are the dynamics of e=mc square so it is a vegitable
The correct formula is E = MC².
E=mc squared
The popular one is ; E = MC^2. That is E=MC squared.
He was of a generation which used "brains". Try it sometime!
Formally it is written as E = mc^(2) E = Energy ( joules) m = mass ( kg) c = speed of light in a vacuum (m/s; metres per second) c^(2) = speed of light squared ( m^2/s^2) or (m/s)^2 Note how similar it is to kinetic energy K.E. = (0.5) m v^(2) KE is Kinetic Energy m = mass v = velocity(speed) .