Partly to ensure that the dimensions of the equation balance.
E=mc2 E=energy m=mass c=speed of light Einstein's equation states that Energy equal mass times the speed of light squared
The energy (E) in any body of matter is equal to its mass (M) times the square of the speed of light (C2)
That equation is the equation that Albert Einstein came up with to describe how to calculate the speed of light. E = energy m = mass c = speed of light
Albert Einstein's most famous equation was probably E=MC2(Energy equals Matter times the (C) speed of light (186,000 miles per second).
This can be answered in two ways... If you're talking about Einstein's equation, then E=MC2. If you are wondering what E means, it stands for energy, so Einstein's equation means, "energy is equal to mass times the speed of light squared'.
C represents a constant (the speed of light).
Einstein correctly predicted that the speed of light is constant relative to anything and everything.
He hypothesized that the speed of light is constant, no matter what the frame of reference is.
Einstein said that in a vacuum light travels at a constant velocity that cannot be exceeded by any physical object.
Einstein
That mass and energy are interchangeable substances. Energy = mass * speed of light squared Mass = energy/speed of light squared A direct mathematical relationship with the speed of light as a constant.
E=mc2 E=energy m=mass c=speed of light Einstein's equation states that Energy equal mass times the speed of light squared
The energy (E) in any body of matter is equal to its mass (M) times the square of the speed of light (C2)
The speed of light is a constant, The laws of physics are the same everywhere are some of Einstein theories.
Albert Einstein gave the theory of relativity to prove that the speed of light is always constant and greatest......
The equation states that energy is directly proportional to mass and that the constant of proportionality is equal to the square of the velocity of light (in vacuum).
According to Einstein's famous equation, it is related to mass and the speed of light (in vacuum).