The explosive in a Hydrogen bomb is a mixture of ${ }_1 \mathrm{H}^2,{ }_1 \mathrm{H}^3$ and ${ }_3 \mathrm{Li}^6$ in some condensed form. The chain reaction is given by
${ }_3 \mathrm{Li}^6+{ }_0 \mathrm{n}^1 \rightarrow{ }_2 \mathrm{He}^4+{ }_1 \mathrm{H}^3$
$ { }_1 \mathrm{H}^2+{ }_1 \mathrm{H}^3 \rightarrow{ }_2 \mathrm{He}^4+{ }_0 \mathrm{n}^1$
During the explosion the energy released is approximately
[Given : $\mathrm{M}(\mathrm{Li})=6.01690 \mathrm{amu} . \mathrm{M}\left({ }_1 \mathrm{H}^2\right)=2.01471$
amu. $\mathrm{M}\left({ }_2 \mathrm{He}^4\right)=4.00388 \mathrm{amu}$, and 1amu $=931.5 \mathrm{MeV}$ ]