Calculate the energy of the reaction `Li^7+ prarr2_2He^4` If the binding energy per nucleon in `Li^(7) and He^4` nuclei are 5.60 Me V 7.06 MeV, respectively.

The energy of the reaction Li^(7)+prarr2He^(4) is ( the binding energy per nucleon in Li^(7) and He^(4) nuclei are 5.60 and 7.60 MeV respectively.)

A proton is bombarded on a stationary lithium nucleus. As a result of the collision, two alpha -particles are produced. If the direction of motion of the alpha -particles with the initial direction of motion makes an angles cos^-1(1//4) , find the kinetic energy of the striking proton. Given, binding energies per nucleon of Li^7 and He^4 are 5.60 and 7.06 MeV, respectively. (Assume mass of proton ~~ mass of neutron).

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

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

The source of energy of stars is nuclear fusion. Fusion reaction occurs at very high temperature, about 10^(7) . Energy released in the process of fusion is due to mass defect. It is also called Q -value. Q = Delta mc^(2), Delta m = mass defect. The binding energy per nucleon of ._(1)H^(2) and ._(2)He^(4) are 1.1 MeV and 7 MeV , respectively. If two deuteron nuclei react to form a single helium nucleus, then the energy released is

Consider the nuclear reaction X^(200)toA^(110)+B^(80)+Q . 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:

The nucleus of an atom of ._(92)Y^(235) initially at rest decays by emitting an alpha particle. The binding energy per nucleon of parent and daughter nuclei are 7.8MeV and 7.835MeV respectively and that of alpha particles is 7.07MeV//"nucleon" . Assuming the daughter nucleus to be formed in the unexcited state and neglecting its share of energy in the reaction, calculate speed of emitted alpha particle. Take mass of alpha particle to be 6.68xx10^(-27)kg .

Calculate the binding energy per nucleon for C^(12) Masses of proton and neutron are 1.0078 and 1.0087, respectively. (m_(u)=931MeV)

Consider the nuclear fission Ne^(20) rarr 2He + C^(12) .The binding energy per nucleon are 8.03 MeV, 7.07 MeV and 7.86 MeV respectively. identify the correct statement

Find the energy required for separation of a_(10)Ne^(20) nucleus into two alpha -particles and a_(6)C^(12) nucleus if it is known that the binding energies per nucleon in ._(10)Ne^(20), ._(2)He^(4) and ._(6)C^(12) nuclei are equal to 8.03, 7.07 and 7.68 MeV respectively.