A uranium rector develops thermal energy at a rate of 300 MW. Calculate the amount of ``^235U`being consumed every second .Average energy released per fission is 200 MeV.

A uranium rector develops thermal energy at a rate of 300 MW. Calculate the amount of U^235 being consumed every second .Average energy released per fission is 200 MeV.

A reactor is developing energy at the rate of 3000 kW. How many atoms of U^(235) undergo fission per second, if 200 MeV energy is released per fission?

Calculate the amount of ""_(92)U^(235) required to release energy of 1 kWh. Given energy released during fission of one atom is 200 MeV.

A power reactor develops energy at the rate of 30,000 kW. How many gram of ""^(235)U would be consumed daily? Assuming that on an average 200 MeV energy is released per fission.

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 .

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 .

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.