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.)

Calculate the energy of the reaction , Li^(7) + p to 2 _(2)He^(4) If the binding energy per nucleon in Li^(7) and He^(4) nuclei are 5.60 MeV and 7.06 MeV , respectively .

Find the energy of the reaction Li^(7)+prarr2He^(4) if the binding energies per nucleon in Li^(7) and He^(4) nuclei are known to be equal to 5.60 and 7.06 MeV respectively.

For atomic nuclei, the binding energy per nucleon

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).

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.

Find the enrgy required of seperation of a Ne^(20) nucleus into two alpha-particles and a C^(12) nucleus if it is known that binding energies per one nucleon in Ne^(20), He^(4) and C^(12) nuclei are equal to 8.03, 7.07 , and 7.68MeV respectively.

What will be the energy change in the following nuclear reaction, X^(40) + ._(0)n^(1) rarr Y^(30)+Z^(11) if binding energy per nucleon of X,Y and Z is 9, 7 and 6 MeV respectively.

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-

Maximum value of binding energy per nucleon for most stable nuclei is

Fill in the blanks with appropriate items : This binding energies per nucleon for ._(1)H^(2) and ._(2)H^(4) are 1.1MeV and 7.0 MeV respectively. The energy released when two deuterons fuse to form a helium nucleus is __________.