In the formula E=CM2, C = the speed of light.
C represents a constant (the speed of light).
The speed of light, in a vacuum.
C equals the speed of light in a vacuum (light travelling no substance what so ever). Which is about 299 792 458 m / s. Because of this formula C=√(E/m)
m = E/c^2
Einstein did not DISCOVER E= mc^2 He derived this formula based on other parts of his work. Specifically, he showed that an object that radiates an amount of electromagnetic energy 'E' would lose an amount of mass equal to E/c^2 At the time, this formula was an almost trivial part of 1905 papers. He did the above while working as a patent clerk in Bern, Switzerland.
The exact opposite of the C in the equation E = MC^ would be darkness. C is the speed of light, so if you take the light out, -C would be equal to darkness.
E is Energy m is Mass c is the speed of light.
C represents a constant (the speed of light).
E=MC^2 the two means that the C at the end of the formula is squared, the 2 is an exponent (meaning that you times C by itself)
c in E=mc squared meaqns the speed of light
E=mc2 E=Energy m=mass c=the speed of light in a vacuum The equation relates mass to energy. Einstein made it.
The formula E=mc^2 was formulated by Albert Einstein in 1905 as part of his theory of special relativity. It relates energy (E) to mass (m) and the speed of light (c) squared.
The speed of light, in a vacuum.
C equals the speed of light in a vacuum (light travelling no substance what so ever). Which is about 299 792 458 m / s. Because of this formula C=√(E/m)
C is the speed of light.
m = E/c^2
c = the speed of light.