In the process of nuclear fission of 1g uranium, the mass lost is 0.90 milligram. The efficiency of power station run by it is `10%`. To obtain 200 megawatt power from the power station, the uranium required per hour is `(c = 3 xx 10^(8))` m/s.

In the process of nuclear fission of 1 g uranium, the mass lost is 0.92 mg . The efficiency of power house run by the fission reactor is 10% .To obtain 400 megawatt power from the power house, how much uranium will be required per hour? (c=3xx10^(8) m s^(-1)) .

In the process of nuclear fission of 1 g uranium, the mass lost is 0.92 mg . The efficiency of power house run by the fission reactor is 10% .To obtain 400 megawatt power from the power house, how much uranium will be required per hour? (c=3xx10^(8) m s^(-1)) .

In the process of nuclear fission of 1g of uranium, the mass lost is 0.90 mg . The efficiency of fission reactor of power house is 20 % . To obtain 400 MW power from the power house, how much uranium (in gram) is required per hour?

If in nuclear fission, a piece of uranium of mass 6.0 g is lost, the energy obtained (in kWh) is n xx 10^(7) . Find the value of n.

If in nuclear fission, a piece of uranium of mass 6.0 g is lost, the energy obtained (in kWh) is n xx 10^(7) . Find the value of n.

The energy released by the fission of one uranium atom is 200 MeV. The number of fissions per second required to produce 3.2 MW of power is :