Consider the nuclear reaction `X^200 to A^110 + B^80` . The binding energy per nucleon for X, A and B are 7.4 MeV, 8.2 MeV and 8.1 MeV respectively. What is the energy released in the nuclear reaction ?

Consider the nuclear reaction X^(200) to A^(110) + B^(9) It the binding energy per nucleon for X,A and B is 7.4 Me V , 8.2 Me V and 8.2 Me V respectively what is the energy released

Consider the nuclear reaction X^(200)toA^(110)+B^(80)+10n^(1) . If the binding energy per nucleon for X, A and B are 7.4 MeV, 8.2 MeV and 8.1 MeV respectively, then the energy released in the reaction:

Consider the following nuclear reaction, X^200rarrA^110+B^90+En ergy If the binding energy per nucleon for X, A and B are 7.4 MeV, 8.2 MeV and 8.2 MeV respectively, the energy released will be

True or False Statements : In the nuclear reaction X^(200) rarr A ^(110)+B^(90) . If the binding energy per nucleon for X, A and B is 7.4 MeV, 8.2.MeV and 8.2 MeV respectively, the energy released is 160 MeV.

The total binding energy for the nucleus of X and Y are 1.2 MeV and 4.5 MeV respectively. Calculate the energy released when two X fuse to form Y.

A nuclear fission is represented by the following reaction: U^(236) = X^(111) +Y^(122) +3n If the binding energies per nucleon of X^(111), Y^(122) and U^(236) are 8.6MeV, 8.5 MeV and 7.6 MeV respectively, then the energy released in the reaction will be-

The binding energies per nucleon for deuterium and helium are 1.1 MeV and 7.0 MeV respectively. What energy in joules will be liberated when 2 deuterons take part in the reaction.

The binding energies per nucleon for deutrium and helium are 1.1 MeV and 7.0 MeV respectively. The energy in joules will be liberated when 10 ^(6) deuterons take part in the reaction