???????? does E equal 'energy'. are the values E-sub-one and E-sub-two??? if so, the expression seems to deal with a 'net' result/gain/loss. to find E, subtract one value of E from another?
E=mc2 means energy=mass multiplied by the speed of light squared.
The opposite of E=mc^2 would be the statement that energy is not equal to mass times the speed of light squared.
Albert Einstein announced the equation E=mc^2 in 1905 as part of his special theory of relativity.
The equation E=mc^2 stands for "energy equals mass times the speed of light squared." It expresses the concept that energy (E) and mass (m) are interchangeable, with the speed of light (c) acting as the conversion factor. The equation is a fundamental principle of physics, demonstrating the relationship between energy and mass.
E=mc^2 represents Albert Einstein's theory of relativity, specifically the equivalence of mass and energy. It states that energy (E) is equal to mass (m) multiplied by the speed of light (c) squared, showing the interrelationship between mass and energy.
meant to be e^x = 2e^1-2x
???????? does E equal 'energy'. are the values E-sub-one and E-sub-two??? if so, the expression seems to deal with a 'net' result/gain/loss. to find E, subtract one value of E from another?
They all equal each other. a = b = c = d = e e = a e = b e = c e = d e = e
Assuming that the difference in capitalization for the two Cs isn't significant, that C is explicitly prohibited from being zero, and that c2 is meant as C2, M = 1/C. If you meant E = mc2, that equation is the answer; the question it's the answer to is "What is the relationship between E and m?"
w = hf - E
If you meant 200cc, this is 200ml. If you meant cl, 200cl is 2000ml
the answer is a
E = 24/z or, equivalently, z = 24/E
Energy.
e=9...
Yes!!! It is an algebraic equation. E = mc^2 In words Energy is equal to mass multiplied to the speed of light squared. It can be algebraically manipulated m E/c^2 or c^2 = E/m or c = sqrt(E/m)
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