Find the energy released during the most probable fission of `""^(235)U.""_(9)^(235)U +""_(0)^(1)n rarr""_(56)^(141)Ba +""_(36)^(92)Kr +3""_(0)^(1)n` Average binding energy per nucleon of `""^(235)U, ""^(141)Ba and ""^(92)Kr` are 7.61 MeV, 8.32 MeV and 8.80 MeV respectively.

It has been estimated that the total power radiated by the sun is 3.8 xx 10^(26) J per second . The source of energy of stars is a thermonucleur fission reaction . Energy released in the process of fusion is due to mass defect . Q = Delta mc^(2) In a nuclear reaction , ""_(1)^(2) H + ""_(1)^(2) H to ""_(2)^(3) He + ""_(0)^(1)n . if the masses of ""_(1)^(2) H & ""_(2)^(3) He are 2.014741 amu and 3.016977 amu respectively . then the Q-value of the reaction is nearly :

During the fission of ""^(235) U , energy of the order of 180 MeV is generated per nucleus fissioned . The amount of energy released by the fission of 0.235 g of ""^(235)U is :

Calculate the energy released by fission from 2g of ._(92)^(235)U in kWh. Given that the energy released per fission is 200 MeV.

It has been estimated that the total power radiated by the sun is 3.8 xx 10^(26) J per second . The source of energy of stars is a thermonucleur fission reaction . Energy released in the process of fusion is due to mass defect . Q = Delta mc^(2) B.E. per nucleon of ""_(1)^(2) H and ""_(2)^(4) He and 1.1 MeV and 7 MeV respectively . If two deutrons nuclei react to form a single helium nucleus , then the energy released is :