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Einstein's Mass-Energy relation.

2007-02-19 01:06:45 · 8 answers · asked by karnam r 1 in Science & Mathematics Physics

8 answers

its very simple E=Mc2
when mass(m) is multiplied with square of speed of light u get energy released or in simple terms the energy that can be produged by certain amount of mass is directly proportional to its weight and square of the speed of light

2007-02-19 01:22:45 · answer #1 · answered by thrivikram rao 1 · 0 0

Einstein postulated this equation and left it at that.
It only has value in reality if it is divided by "T" time.
Take a marble and turn it to energy over a period of 10 years,it would be unspectacular do it in one-one thousands of a second and it would do major damage to it's surroundings

2007-02-19 01:16:44 · answer #2 · answered by Billy Butthead 7 · 0 0

Consult Einstein's original paper.

2007-02-19 01:18:20 · answer #3 · answered by ag_iitkgp 7 · 2 0

energy= mass x the speed of light squared.

2007-02-19 01:14:11 · answer #4 · answered by m 2 · 0 0

ENERGY RELEASED IN FISSION IS DUE LOSS IN MASS OF REACTANTS AND THERE RAY SPEED i.e3X100000000 WHEN THESE ARE MULTIPLIED IT GIVES THE ENRGY. E =MC2

2007-02-19 01:51:27 · answer #5 · answered by AaSHEK 4 · 0 0

if you derive it with mass:
dE= c^2
derive it by c^2:
dE=2mdc
derive it with energy:
1=mc^2

2007-02-19 01:10:14 · answer #6 · answered by Anonymous · 1 0

You are going to have to do a little work. If you have some high school mathematics you'll be able understand it without too much effort.

2007-02-19 01:11:53 · answer #7 · answered by Anonymous · 0 0

i don't remember how to do it

2007-02-19 01:14:55 · answer #8 · answered by sammy 5 · 0 0

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