Explain that E = MC2 When we see Einstein's mass energy formula e = MC2, can we explain its derivation process and application in a more understandable language? How can we deduce that an object cannot move faster than the speed of light? M = M0 / root sign [1 - (V / C) ^ 2] (M0 is the static mass of the object, V is the moving speed of the object, C is the speed of light, M is the moving mass of the object) how do you get it?

Explain that E = MC2 When we see Einstein's mass energy formula e = MC2, can we explain its derivation process and application in a more understandable language? How can we deduce that an object cannot move faster than the speed of light? M = M0 / root sign [1 - (V / C) ^ 2] (M0 is the static mass of the object, V is the moving speed of the object, C is the speed of light, M is the moving mass of the object) how do you get it?

The derivation process of this formula is quite complicated. Let's explain this formula. This formula shows that any object with mass contains huge energy, and the contained energy can be calculated by this formula. This formula also shows that mass and energy are equivalent, and there is mass when there is energy. However, this formula does not mean that an object can