It is the theory of relativity, which describes the relationship between mass and energy. States that energy is mass and mass is energy. The theory also addresses gravitation and a connection between space and time.
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It was his famous equation of E = mc2 and the rules of relativity
What inspired you to pursue a career in physics? How did your theory of general relativity change our understanding of the universe? What advice do you have for aspiring scientists and researchers? What prompted you to speak out on social and political issues?
Physicist
Albert Einstein contributed significantly to our understanding of the nature of light through his development of the theory of relativity and the concept of photons. His work helped to explain the dual nature of light as both a wave and a particle, leading to groundbreaking discoveries in quantum mechanics and the theory of electromagnetism. Einstein's research laid the foundation for modern physics and our understanding of the behavior of light in the universe.
he was a great help because he investigated things\!
Albert Einstein is best known for his theory of relativity, which describes how space and time are linked and how gravity is the result of the bending of space-time. He is also famous for his equation E=mc^2, which relates energy and mass.
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There is no significant contribution of any person named Alexander Einstein recorded. However, Albert Einstein made major contributions in science including the theory of relativity which he got a Nobel prize for.
Creation of the atomic bomb
Albert Einstein made major contributions to the field of physics, particularly in the areas of special relativity and general relativity. His famous equation, E=mc^2, revolutionized our understanding of energy, mass, and the relationship between them.
E = mc2
Albert Einstein is best known for his contributions to the field of theoretical physics, particularly his development of the theory of relativity and the famous equation E=mc^2. While he did not make direct contributions to the field of electricity, his work has laid the foundation for understanding the relationship between energy, mass, and light, which has important implications for electrical and electromagnetic phenomena.
Physics.