In the reaction `""_(1)^(2)H+""_(1)^(3)H to ""_(2)^(4)He+""_(0)^(1)n`. If the binding energies of `""_(1)^(2)H,""_(1)^(3)H and ""_(2)^(4)He` are respectively a, b and c (in MeV), then the energy (in MeV) released in this reaction is

In the reaction ._1^2 H + ._1^3 H rarr ._2^4 He + ._0^1 n , if the binding energies of ._1^2 H, ._1^3 H and ._2^4 He are respectively a,b and c (in MeV), then the energy (in MeV) released in this reaction is.

If the binding energy per nucleon in ._(3)Li^(7) and ._(2)He^(4) nuclei are respectively 5.60 MeV and 7.06 MeV, then the ebergy of proton in the reaction ._(3)Li^(7) +p rarr 2 ._(2)He^(4) is

In the following nuclear reaction, calculate the energy released in MeV : ""_(1)^(2)H+""_(1)^(2)Hto""_(2)^(3)He+""_(0)^(1)n Given that : Mass of ""_(1)^(2)H=2.015u Mass of ""_(2)^(3)He=3.017u Mass of ""_(0)^(1)n=1.009u What is the name of this reaction?

Complete the reation : ""^(3)He_(2)+""^(2)H_(1)to""^(4)He_(2)+......+"Energy"

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 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. In a nuclear reaction ._(1)H^(2) + ._(1)H^(2) rarr ._(2)He^(3) + ._(0)n^(1) If the masses of ._(1)H^(2) and ._(2)He^(3) are 2.014741 and 3.016977 amu, respectively. then the Q -value of the reaction is nearly.

The ratio of the radii of the nucleons of ._(2)^(4)He and ._(1)^(1)H is

(a) In a nuclear reaction ""_(2)^(3)He +""_(2)^(3)He to ""_(2)^(4)He+""_(1)^(1)H +""_(1)^(1)H +12.86 MeV, though the number of nucleons is conserved on both sides of the reaction, yet the energy is released. How? Explain. (b) Draw a plot of potential energy between a pair of nucleons as a function of their separation. Mark the regions where potential energy is (i) positive and (ii) negative.

Complete the following fusion reactions : (a) ""_(2)^(3) He +_(1)^(2) H to_2 He + _1 H + en ergy (b) ""_(1)^(2) He +_(1)^(2) H to_2 He + ^1 n + en ergy