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 fission from 2 gm of ._92U^235 in KWH. 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 )

Most of energy released in the fission is carried by

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)

Write the approximate value of the energy released in the fission of one nucleus of ""_(92)^(235) U . What is the reason for it ?

find the amount of energy produced in jaoules due to fission of 1 g of ""._(92)U^(235) assuming that 0.1% of mass is transormed into enengy ,Atomic mass of ""._(92)U^(235)=235 amu , Avogodro number N_(A)=6.023xx10^(23). Given that the energy released per fission is 200 MeV.

Calculate and compare the energy released by (a) fusion of 1.0kg of hydrogen deep within the sun, and (b) the fission of 1.0kg of U^(235) in a fission reactor.

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.

U-235 can decay by many ways , let us here consider only two ways, A and B . In decay of U-235 by means of A , the energy released per fission is 210 MeV while in B it is 186 MeV . Then , the uranium 235 sample is more likely to decay by .

A nuclear explosion is designed to deliver 1 MW of heat energy, how many fission events must be required in a second to attain this power level. If this explosion is designed with a nuclear fuel consisting of uranium 235 to run a reactor at this power level for one year, then calculate the amount of fuel needed. You can assume that the calculate the amount of energy released per fission event is 200 MeV .