The famous equation is E = m c squared. c is the speed of light- a constant.
m is mass. Mass is the answer to your question.
Mass can be converted to a lot of energy, but not easily, unfortunately.
Einstein wasn't really an inventor he was a theoretical physicist. Some of his greatest discoveries were general relativity, the quantisation of the photon and the mass energy equivalence equation (E=MC^2).
The equivalence of mass and energy is one of the implications that arise from General Relativity.
Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.
I don't think the theory changed anything. In classical mechanics, energy is conserved; in the theory of relativity, energy is also conserved. Also note that there are two "theories of relativity"; you may want to clarify which one you are talking about. In any case, it is my understanding that energy is conserved in both cases.
that matter can be turned into energy and vice versa
No. Energy, mass and light-speed, none of which involve pi.
It made it less efficient and stated that it was more difficult to convert the thermal energy.
it is a example of a law that can't be proven by science
None of these. It is energy. It is not matter. But according to the law of relativity, energy can be converted into matter.
E-mc^2. Energy is related to matter by the speed of light squared.
None of these. It is energy. It is not matter. But according to the law of relativity, energy can be converted into matter.
None of these. It is energy. It is not matter. But according to the law of relativity, energy can be converted into matter.
Einsteins theory of relativity can answer this. The equation is E=mC^2. This reads e equals m c squared. E is energy, m is mass and every object that has mass has a gravitational pull.
Einstein wasn't really an inventor he was a theoretical physicist. Some of his greatest discoveries were general relativity, the quantisation of the photon and the mass energy equivalence equation (E=MC^2).
yes, it stands for energy=mass times the speed of light in meters per second squared. it calculates the energy involved in splitting an atom. it also does other things i dont know what its part of albert einsteins theory of relativity.
The equivalence of mass and energy is one of the implications that arise from General Relativity.
the curvature of space time is directly related to the energy and momentum of whatever matter and radiation are present. The relation is specified by the Einstein field equations, a system of partial differential equations.