Calculate the energy released by the fission of 1.0 kg of `"^235U` in a fission reactor.

Energy released by fission of one "_92u^235 atom is 200 MeV. Calculate the energy released in kWh when one gram of U^235 undergoes fission.

Calculate and compare the energy released by fusion of 1.0 kg of hydrogen deep within Sun.

A 1000 MW fission reactor consumes half of its fuel in 5.00 y. Howmuch "_92^235U did it contain initially? Assume that the reactor operates80% of the time, that all the energy generated arises from the fission of 23592 U and that this nuclide is consumed only by the fission process.

A neutron is abosorbed by "_3^6Li nucleus with the subsequent emission of an alpha-particl e . Calculate the energy released in MeV in this reaction given "_3^6Li =6.015126 u, mass (neutron)=1.0086654 u mass (alpha)=4.0026044 u and mass (triton)=3.0100000u. Take 1u=931 MeV//c^2 .

Calculate the energy liberated in kWh, where 100 g of "_3Li^7 are converted into "_2He^4 by proton bombbardment. Given mass of "_3Li^7=7.0183 u , mass of "_2He^4=4.0040 u and mass of "_1H^1 = 1.0081 u .

Consider the D–T reaction (deuterium–tritium fusion) "_1^2H + "_1^3H rarr "_2^4He + n . Calculate the energy released in MeV in this reaction from the data: m( "_1^2H )=2.014102 u m( "_1^3H ) =3.016049 u

In which case the energy released per nuclear is more: In fission or fusion?