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

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

The power obtained in a reactor using U^235 disintegration is 100 kW . The mas decay of U^235 per hour is

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?

The enegry released per fission of .^(235)u is nearly

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.

The energy released per fission of uranium 235 is about 200 MeV. A reactor using U-235 as fuel is producing 1000 kilowatt power. The number of U-235 nuclei undergoing fission per sec is, approximately-

Decay of ""_(92)U^(235) is ……order reaction.

Assuming that about 200 MeV of energy is released per fission of ._(92)U^(235) nuceli, the mass of U^(235) consumed per day in a fission ractor of power 1 megawatt will be approximately .

The amount of U^(235) to be fissioned to operate 10 kW nuclear reactor is