A nuclear explosive is designed to deliver 1 MW power in the form of heat energy.If the explosion is designed with nuclear fuel consisting of `U^(235)` to run a reactor at this power level for one year, then the amount of fuel needed is (Given energy per fission is 200 MeV)

A nuclear explosion is designed to deliver MW of heat energy. The explosion is designed with a nuclear fuel ""^(235)U to run the reactor to ...This power level if 200 MeV of energy is released for each fission event, then

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 .

A nuclear reactor containing U^(235) produces 10 MW . Calculate the fission rate assuming that 200 MeV of useful energy is released in one fission ?

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

A nuclear reactor delivers a power of 10^(9) W. What is the amount of fuel consumed by the reactor in one hour?

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.

A nuclear reactor using .^(235)U generates 250 MW of electric power. The efficiency of the reactor (i.e., efficiency of conversion of thermal energy into electrical energy) is 25% . What is the amount of .^(235)U used in the reactor per year? The thermal energy released per fission of .^(235)U is 200 MeV .

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.