`200 Me V` of energy may be obtained per fission of `U^(235)` A reactor is generating `1000 KV` of power. The rate of nuclear fission in the ractor is

200 MeV of energy may be obtained per fission of U^235 . A reactor is generating 1000 kW of power. The rate of nuclear fission in the reactor is.

200 MeV of energy may be obtained per fission of U^235 . A reactor is generating 1000 kW of power. The rate of nuclear fission in the reactor is.

A reactor is generating 1000 kW of power and 200 MeV of energy may be obtained per fission of U^235 The rate of nuclear fission in the reactor is

In each fission of U^235 , 200 MeV of energy is released. If a reactor produces 100MW power the rate of fission in it will be

The power obtained in a reactor using U^(235) disintergration is 1000kW . The mass decay of U^(235) per hour is

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.

On disintegration of one atom of .^(235)U , the amount of energy obtained is 200 MeV . The power obtained in a reactor is 1000 kilo watt. How many atoms are disintegrated per second in the reactor? What is the decay in mass per hour?

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 average number of neutrons released per fission in the fission of U^235 is

An atomic power nuclear reactor can deliver 300 MW . The energy released due to fission of each nucleus of uranium atom U^238 is 170 MeV . The number of uranium atoms fissioned per hour will be.