Mass-energy equivalence relationship Einstein

Einstein s mass-energy equivalence relationship Relation between mass defect and ena-gy released... 

The difference between the mass of an atom and the sum of the masses of its protons, neutrons, and electrons is called the mass defect. Relativity theory tells us that the loss in mass shows up as energy (heat) given off to the surroundings. Thus, the formation of gF is exothermic. Einstein s mass-energy equivalence relationship states that... 

It is now known that energy can be produced by the loss of mass during a nuclear reaction. Energy and mass are related by Einstein s mass-energy equivalence relationship E = mc, where c is the velocity of light. The modified law, therefore, states that the total mass and energy of an isolated system remain constant. 

A. (a) Show, using the Einstein mass-energy relationship, that 1.00 AMU is equivalent to 931 Mev of energy. 

The equivalence of these criteria follows from Einstein s mass-energy relationship. Spontaneous transformations of one nucleus into others can occur only if the combined mass of products is less than the mass of the original nuclide. 

According to the special theory of relativity, the last two formulas are actually different facets of the same fundamental relationship. By Einstein s famous formula, the equivalence of mass and energy is given by... 

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