The binding energies per nucleon for deuteron `(""_1^(2)H)` and helium `("'_(2)^(4)He)` are 1.1 MeV and 7.0 MeV respectively. Calculate the energy released, when two deuterons fuse to form a helium nucleus.

The binding energies per nucleon for deuteron (._1H^2) and helium (._2He^4) are 1.1 MeV and 7.0 MeV respectively. Calculate the energy released, when two deuterons fuse to form a helium nucleus.

The binding energy par nucleon for deuterium (""_(1)^(2)H) and helium (""_(4)^(2)He) are 1.1 MeV and 7.0 MeV respectively. The energy released when two deutrons fuse to form a helium nucleus (""_(4)^(2)He) is K(10^(7)) MeV, where K= ……… (nearly)

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 10^(6) deuterons take part in the reaction.

It has been estimated that the total power radiated by the sun is 3.8 xx 10^(26) J per second . The source of energy of stars is a thermonucleur fission reaction . Energy released in the process of fusion is due to mass defect . Q = Delta mc^(2) B.E. per nucleon of ""_(1)^(2) H and ""_(2)^(4) He and 1.1 MeV and 7 MeV respectively . If two deutrons nuclei react to form a single helium nucleus , then the energy released is :

The binding energies of the nuclei of ""_(2)^(4)He,""_(3)^(7)Li,""_(6)^(12)C & ""_(7)^(14)N are 28,50,89 98 MeV respectively. Which of these is most stable?