The mass of a nucleus ${ }_Z^A X$ is less that the sum of the masses of $(A-Z)$ number of neutrons and $Z$ number of protons in the nucleus. The energy equivalent to the corresponding mass difference is known as the binding energy of the nucleus. A heavy nucleus of mass $M$ can break into two light nuclei of masses $m_1$ and $m_2$ only if $\left(m_1+m_2\right)M^{\prime}$. The masses of some neutral atoms are given in the table below :
The correct statement is :
Select the correct option:
A
The nucleus ${ }_3^6 \mathrm{Li}$ can emit an alpha particle
B
The nucleus ${ }_{84}^{210} \mathrm{P}_0$ can emit a proton
C
Deuteron and alpha particle can undergo complete fusion.
D
The nuclei ${ }_{30}^{70} \mathrm{Zn}$ and ${ }_{34}^{82} \mathrm{Se}$ can undergo complete fusion.
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