Calculate the energy released in the reaction,`"_ 92 ^ 236 U rarr _53 ^137 I + _39 ^ 97 Y +2n`. The masses of `"_ 92 ^236 U`,`"_53 ^ 137 I `and `"_39 ^97 Y` are `236.04557`, `136.91787` and `96. 91827` respectively

Calculate the energy released in the following reactions, the masses given are: ''_92^236U rarr _56^140Ba+_36^94Kr+2n

Calculate the energy in MeV released in the nuclear reaction ._77^174 Ir Arrrrr ._75^170Re + ._2^4He Atomic masses :Ir= 173.97 u, Re = 169.96 u and He = 4.0026 U

Calculate the energy released in the nuclear reaction "_3 ^7 Li+p rarr 2 alpha given mass of "_3 ^7 Li atom and of helium atom to be 7.016u and 4.0026u respectively.

Calculate the energy released in the nuclear reaction "_3^7 Li + P rarr 2alpha given mass of "_3^7Li atom and helium atom are 7.016u and 4.0026u respectively.

Calculate the energy realesed in the following reactions, given the masses to be _88^223 Ra : 223.0185u, "_82 ^209 Pb: 208.9811 , "_6 ^ 14 C: 14.00324 , "_92 ^236 U:236.0456 , "_56 ^140 Ba:139.9106 , "_36 ^94 Kr :93.9341, _6 ^ 11C:11.01143 , "_5 ^ 11 B:11.0093 . ignore neutrino energy. "_88 ^223 Ra rarr "_82 ^209 Pb + "_6 ^ 4 C

Calculate the energy released in the fusion reaction taking place inside the Sun, 4p rarr alpha + 2e^+ + neutrinos, neglecting the energy given to the neutrinos. Mass of of alpha particle being 4.001506 u.