An explosion of atomic bomb releases an energy of `7.6xx10^(13)J`. If `200 MeV` energy is released on fission of one `.^(235)U` atom calculate (i) the number of uranium atoms undergoing fission. (ii) the mass of uranium used in the atom bomb

An explosion of atomic bomb releases an energy of 7.6xx10^(13)J . If 200 MeV energy is released of fission of one .^(235)U atom calculate (i) the number of uranium atoms undergoing fission, (ii) the mass of uranium used in the bomb.

An explosion of atomic bomb release an energy of 7.6 xx 10^13 J. If 200 Mev energy is released on fission of one .^235U atom calculate (i) the number of uranium atoms undergoing fission, (ii) the mass of uranium used in the bomb.

It is estimated that the atomic bomb exploded at Hiroshima released a total energy of 7.6xx10^(13)J . If on the average, 200MeV energy was released per fission, calculate (i) the number of Uranium atoms fissioned, (ii) the mass of Uranium used in the bomb.

If 200 MeV of energy is released in the fission of 1 nucleus of ._(92)U^(235) , the number of nuclei that undergo fission to produce energy of 10 kWh in 1 s is

If 200 MeV of energy is released in the fission of one nucleus of ._92U^235 , The number of nuclei that must undergo fission to produce energy of 1000J in 1 sec is

The energy released by fission of one U^(235) atom is 200 MeV. Calculate the energy released in kWh, when one gram of uranium undergoes fission.