Albert Einstein's most famous equation was probably E=MC2(Energy equals Matter times the (C) speed of light (186,000 miles per second).
Discovering the equation: E = mc2
Albert Einstein wasn't very logical in daily life. His wife had to dress him, wake him up... Nonetheless he is one of the most famous scientists in our history books.
e = mc2 is a famous equation by Albert Einstein (who, along with with Sir Isaac Newton, is probably the most famous physicist to have lived). It tells us that energy is equal to the product of mass and the square of the speed of light.
The most famous one are his Theory of General Relativity, and Theory of Special Relativity.
E=MC2 The rest energy of a paricle is equal to its mass times the speed of light squared.
E=mc^2 Is his most famous equation.
Albert Einstein was a theoretical physicist from Germany. He is well known for the world's most famous equation of the mass-energy equivalence formula.
I believe it was Albert Einstein. He came up with the most famous equation.
finding the most famous equation of the 20th century E=mc2
Albert Einstein is more famous that Darth Vader. Einstein is the most famous person ever.
Albert Einstein's most famous quote about understanding is: "The only source of knowledge is experience."
Albert Einstein is most famous for his theory of relativity, which revolutionized our understanding of space, time, and gravity. He is also known for his equation E=mc2, which describes the relationship between mass and energy.
Albert Einstein
Albert Einstein is famous for developing the theory of relativity, which revolutionized our understanding of space, time, and gravity. His equation E=mc^2, which describes the relationship between energy and mass, is one of the most famous equations in physics. Einstein's work laid the foundation for many advances in modern physics.
relativity
relativity
e=mc2 2nd Answer: " e-mc^2" is an equation that we know is true, but it is not a theory. Einstein's most famous theories are the Special Theory of Relativity and the General Theory of Relativity.