If in nuclear fission of a piece of uranium, 0.5 g mass is lost, how much energy in kWh is obtained?

IF in a nuclear fission, piece of uranium of mass 5.0g is lost, the energy obtained in kWh is

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.

In a nuclear fusion reaction, the loss in mass is 0.3%. How much energy is released in the fusion of 1 kg mass ?

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)) .

Which of the following statements is not true about nuclear energy generation in a nuclear reactor? (A) Energy is obtained by a process called nuclear fission. (B) The nucleus of Uranium is bombarded with high energy neutrons. (C) A chain reaction is set in the process. (D) In this process a tremendous amount of energy is released at a controlled rate.

Find the amount of energy produced in joules due to fission of 1 gram of uranium assuming that 0.1 percent of mass is transformed into energy. Take 1amu= 1.66xx10^(-27)kg=931.5MeV Mass of uranium =235amu. Avogadro number = 6.02xx10^(23)

In a nuclear fission 0.1% of mass is converted into energy. The energy released by the fission of 1kg mass is

In fission of one uranium-235 nucleus, the loss in mass is 0.2 a.m.u. Calculate the energy released.

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.

Nuclear fission and fusion are examples of conversion of mass into energy. Is strictly speaking mass converted into energy even in an exothermic chemical reaction ?