[" The binding energies per nucleon of deutron and "alpha" -particle are "x_(1)" and "x_(2)" respectively.Then energy released "],[" in the following reaction will be "-,H^(2)++,H^(2)=_(2)He^(4)+Q]

The binding energies per nucleon for a deuteron and an alpha -particle are x_(1) and x_(2) respectively. What will be the energy Q released in the following reaction? ""_(1)H^(2) + ""_(1)H^(2) to ""_(2)He^(4) + Q

The binding energies per nucleon for a deuteron and an alpha- particle are x_1 and x_2 respectively. What will be the energy Q released in the following reaction ? ._1H^2 + ._1H^2 rarr ._2He^4 + Q .

The binding energies per nucleon for a deuteron and an alpha- particle are x_1 and x_2 respectively. What will be the energy Q released in the following reaction ? ._1H^2 + ._1H^2 rarr ._2He^4 + Q .

The binding energies per nucleon for a deuteron and an alpha- particle are x_1 and x_2 respectively. What will be the energy Q released in the following reaction ? ._1H^2 + ._1H^2 rarr ._2He^4 + Q .

The (B.E)/(A) for deutron and an alpha -particle are X_(1) and X_(2) respectively. The energy released alpha -particle is

The binding energies of a deutron and an alpha -particle are 1.125,7.2 MeV//"nucleon" respectively. The more stable of the two, is

The binding energies per nucleon in case of deutron ("-1H^2) and alpha -particle ("-2He^4) are 1.25 MeV and 7.2 MeV respectively. Which nucleus is more stable?

The binding energies of deutron (._1H^2) and alpha -particle (._2He^4) are 1.25 and 7.2 MeV/nucleon respectively. Which nucleus is more stable?