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Find the amount of energy released when `1` atom of Uranium `._(92)U^(235)(235.0439 "amu")` undergoes fission by slow neturon `(1.0087 "amu")` and is splitted into Krypton `._(36)Kr^(92)(91.8973 "amu")` and Barium `._(56)Br^(141)(140.9139 "amu")` assuming no energy is lost. Hence find the enrgy in `kWh`, when `1g` of it undergoes fission.

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IN a nuclear reactor, fission is produced in 1 g of .^(235)U (235.0349 am u) . In assuming that ._(53)^(92)Kr (91.8673 am u) and ._(36)^(141)Ba (140.9139 am u) are produced in all reactions and no energy is lost, calculate the total energy produced in killowatt. Given: 1 am u =931 MeV .

IN a nuclear reactor, fission is produced in 1 g of .^(235)U (235.0349 am u) . In assuming that ._(53)^(92)Kr (91.8673 am u) and ._(36)^(141)Ba (140.9139 am u) are produced in all reactions and no energy is lost, calculate the total energy produced in killowatt. Given: 1 am u =931 MeV .