Einstein developed the theory of mass-energy equivalence, which is famously expressed as E=mc^2. This breakthrough was part of his theory of relativity and fundamentally changed our understanding of the relationship between mass and energy.
Albert Einstein discovered the mass-energy equivalence in 1905 while he was working on his theory of special relativity. This groundbreaking equation, E=mc^2, states that energy (E) and mass (m) are interchangeable, paving way for new understandings in physics and laying the foundation for advancements in nuclear energy and weapons.
Albert Einstein did not discover gravity; it was Sir Isaac Newton who formulated the law of universal gravitation. However, Einstein revolutionized our understanding of gravity with his theory of general relativity, which explains gravity as a curvature in spacetime caused by the presence of mass and energy.
Einstein's work on the photoelectric effect showed that light behaves as particles (photons), challenging the established wave theory. He also developed the theory of special relativity, which showed that matter and energy are interchangeable (E=mc^2), revolutionizing our understanding of the relationship between mass and energy at the atomic level.
Einstein believed that the element of uranium could be used to prove his theory that mass and energy are interchangeable. This idea led to the development of nuclear energy and the famous equation E=mc^2.
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.
in 1905
Einstein discovered mass and energy relation (e=mc2)
Albert Einstein discovered the mass-energy equivalence in 1905 while he was working on his theory of special relativity. This groundbreaking equation, E=mc^2, states that energy (E) and mass (m) are interchangeable, paving way for new understandings in physics and laying the foundation for advancements in nuclear energy and weapons.
Albert Einstein did not discover gravity; it was Sir Isaac Newton who formulated the law of universal gravitation. However, Einstein revolutionized our understanding of gravity with his theory of general relativity, which explains gravity as a curvature in spacetime caused by the presence of mass and energy.
special relativity
Einstein's work on the photoelectric effect showed that light behaves as particles (photons), challenging the established wave theory. He also developed the theory of special relativity, which showed that matter and energy are interchangeable (E=mc^2), revolutionizing our understanding of the relationship between mass and energy at the atomic level.
Einstein's theory of relativity states that mass and energy are inter convertible. The theory can be numerically verified by the mass energy equation i.e. E=mc2 (where E is energy, m is mass and c is the velocity of light).
Einstein - E=MC2E = EnergyM = MassC = speed of lightBasically mass and energy are interchangeable
Einstein believed that the element of uranium could be used to prove his theory that mass and energy are interchangeable. This idea led to the development of nuclear energy and the famous equation E=mc^2.
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.
Because, in his theory, he wanted to show that energy always has mass.
radium