It refers to the speed of light.
E = mc2
Einstein's most famous equation, E=MC2 (Energy=Mass x Speed of Light (in a vacuum) Squared) is the equation for Mass-Energy equivalence, which is that the mass of a body is equal to its energy content. It is the core basis for obtaining a nuclear reaction.
E=mc2 E=Energy m=mass c=the speed of light in a vacuum The equation relates mass to energy. Einstein made it.
Mass-energy equivalence
E=mc2 E=energy m=mass c=speed of light Einstein's equation states that Energy equal mass times the speed of light squared
E = mc2
E=mc^2 states that mass and energy are interchangeable, and that a little bit of mass creates a lot of energy.
Mass Energy.
Mass is a measure of the amount of matter in an object, while energy is the ability to do work. According to Einstein's theory of relativity, mass can be converted into energy and vice versa through the famous equation (E = mc^2), where E is energy, m is mass, and c is the speed of light.
The mass can be converted in energy: the equation of Einstein is: E= mc2.
according to energy heat equation e=mc^2 where c is speed we can calculate energy
it goes everywhere on the plant
Einstein's most famous equation, E=MC2 (Energy=Mass x Speed of Light (in a vacuum) Squared) is the equation for Mass-Energy equivalence, which is that the mass of a body is equal to its energy content. It is the core basis for obtaining a nuclear reaction.
The importance of Einstein's equation is that it shows us that mass and energy are related. The famous equation is E=mc2.
E=mc2 demonstrates that matter can be changed into energy and vice versa, which would appear to mean that matter can be created and destroyed. A way around this would be to consider mass and energy as part of the same value.
E=mc2 E=Energy m=mass c=the speed of light in a vacuum The equation relates mass to energy. Einstein made it.
e=mc^2