If u are meaning ALBERT EINSTEIN, then his famous equation is E=MC2
2006-07-19 22:12:17
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answer #1
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answered by satire76 2
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The Einstein Field Equations (EFE) are a set of ten equations in Einstein's theory of general relativity in which the fundamental force of gravitation is described as a curved spacetime caused by matter and energy. The EFE are sometimes called Einstein's equation or Einstein's equations because of their appearance. Such usage is often discouraged as many people state E=mc2 as being Einstein's equation.
The EFE collectively form a tensor equation and equate the curvature of spacetime (as expressed using the Einstein tensor) with the energy and momentum within the spacetime (as expressed using the stress-energy tensor).
Being the most accurate field equation for gravitation, the EFE are often used to determine the curvature of spacetime resulting from the presence of mass and energy. That is, they determine the metric tensor of spacetime for a given arrangement of stress-energy in the spacetime. Because of the relationship between the metric tensor and the Einstein tensor, the EFE become a set of coupled, non-linear differential equations when used in this way.
2006-07-19 22:13:23
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answer #2
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answered by Bolan 6
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E=mc2(squared)
2006-07-19 22:12:49
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answer #3
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answered by Haynaku 2
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E=mc2
2006-07-19 22:14:26
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answer #4
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answered by Liberty 2
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E=mc2
2006-07-19 22:13:43
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answer #5
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answered by Anonymous
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E=mc2(squared)
where E-energy
M-mass
C-Speed of light 3*10^8 m/s
It explains the relation between mass and energy.
2006-07-19 22:17:10
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answer #6
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answered by unni 2
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I think the the spelling u want to write is "EINSTIEN" u may be in a hurry .Here's your answer e=mc^2.Which means the mass and energy relation.
2006-07-19 22:14:40
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answer #7
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answered by Anonymous
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E=MC^2
2006-07-20 02:29:25
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answer #8
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answered by Char 7
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E=MC2
2006-07-19 23:04:39
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answer #9
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answered by Sweetie Chick 2
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http://math.ucr.edu/home/baez/einstein/node3.html
2006-07-19 22:16:35
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answer #10
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answered by randys_gem 3
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