What is the energy released by fassion of 1 g of `U^(235)`? (Assume 200 Me V energy is liberated on fission of 1 nucleus)

Calculate the energy released by fission from 2 gm of ._92U^235 in KWH. Given that the energy released per fission is 200 Mev.

Calculate the energy released by fission from 2 g of ._92^235U in k Wh. Given that the energy released per fission is 200 Mev.

Calculate the energy released by the fission 1 g of .^235U in joule, given that the energy released per fission is 200 MeV. (Avogadro.s number = 6.023 xx 10^23 )

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.

The energy released by the fission of a single uranium nucleus is 200 MeV . The number of fission of uranium nucleus per second required to produce 16 MW of power is (Assume efficiency of the reactor is 50% )

The energy released by the fission of a single uranium nucleus is 200 MeV. The number of fission of uranium nucleus per second required to produce 16 MW of power is (Assume efficiency of the reactor is 50%)

Energy released during the fission of one Uranium-235 nucleus is 200MeV. Energy released by the fission of 500gm of U-235 nuclei will be about

The energy released during the fission of 1kg of U^(235) is a E_1 and that product during the fusion of 1 kg of hydrogen is E_2 . If energy released per fission of Uranium - 235 is 200 MeV and that per fusion of hydrogen is 24.7 MeV , then the ratio E_2/E_1 is

If 200 MeV energy is released in the fission of a single U^235 nucleus, the number of fissions required per second to produce 1 kilowatt power shall be (Given 1 eV = 1.6 xx 10^-19 J ).

If 200 MeV energy is released in the fission of a single U^235 nucleus, the number of fissions required per second to produce 1 kilowatt power shall be (Given 1 eV = 1.6 xx 10^-19 J ).