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.
Albert Einstein's theory of relativity consists of two parts: special relativity and general relativity. Special relativity describes the relationship between space and time, while general relativity explains how gravity is a result of the bending of spacetime by matter and energy. These theories revolutionized our understanding of the universe and have been confirmed through numerous experimental observations.
Special relativity and kinetic energy are related through the famous equation Emc2, which shows that energy (E) and mass (m) are interchangeable. In the context of kinetic energy, as an object's speed increases, its mass also increases according to special relativity. This means that the object's kinetic energy also increases, as kinetic energy is directly proportional to mass and the square of velocity.
The related link Wikipedia article lists some. Probably his most famous are his theories of Special Relativity and General Relativity. He laid the groundwork for quantum mechanics and other modern physics concepts.Special Relativity, General Relativity and the beginnings of Quantum Mechanics.
Yes, according to Einstein's theory of relativity, energy can be converted into matter through the process of nuclear reactions.
Einstein's theory of relativity replaced the Newtonian theory of gravity proposed by Sir Isaac Newton. Newton's theory described gravity as a force acting at a distance, whereas Einstein's theory described gravity as a curvature in spacetime caused by mass and energy.
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.
Albert Einstein's theory of relativity consists of two parts: special relativity and general relativity. Special relativity describes the relationship between space and time, while general relativity explains how gravity is a result of the bending of spacetime by matter and energy. These theories revolutionized our understanding of the universe and have been confirmed through numerous experimental observations.
Special relativity and kinetic energy are related through the famous equation Emc2, which shows that energy (E) and mass (m) are interchangeable. In the context of kinetic energy, as an object's speed increases, its mass also increases according to special relativity. This means that the object's kinetic energy also increases, as kinetic energy is directly proportional to mass and the square of velocity.
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.
The related link Wikipedia article lists some. Probably his most famous are his theories of Special Relativity and General Relativity. He laid the groundwork for quantum mechanics and other modern physics concepts.Special Relativity, General Relativity and the beginnings of Quantum Mechanics.
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.
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.
Yes, according to Einstein's theory of relativity, energy can be converted into matter through the process of nuclear reactions.