[H^(1)+_(1)H^(1)+_(1)H^(2)rarr X+e^(0)+" energy.The emitted particle "],[" is - "],[[" (1) Neutron "," (2) Proton "],[" (3) "alpha" -particle "," (4) Neutrino "]]

"_1H^1+_1H^1+_1H^2rarr X+_1e^0+ energy. The emitted particle is:

._1 H^1 + ._1H^1 + ._1H^2 rarr X + ._(+1)e^0 + energy. The emitted particle is.

In the nuclear reaction , ""_(1) H^(2) + ""_(1) H^(3) = ""_(2) He^(4) + X ,, the emitted particle X is

In the nuclear reaction, ""_(1)H^(2)+_(1)H^(3)=_(2)H^(3)=_(2)He^(4)+X, the emitted particle X is

In the disintegration of a radioactive element, alpha - and beta -particles are evolved from the nucleus. ._(0)n^(1) rarr ._(1)H^(1) + ._(-1)e^(0) + Antineutrino + Energy 4 ._(1)H^(1) rarr ._(2)He^(4) + 2 ._(+1)e^(0) + Energy Then, emission of these particles changes the nuclear configuration and results into a daughter nuclide. Emission of an alpha -particles results into a daughter element having atomic number lowered by 2 and mass number by 4, on the other hand, emission of a beta -particle yields an element having atomic number raised by 1. How many alpha - and beta -particle should be emitted from a radioactive nuclide so that an isobar is formed?

In the disintegration of a radioactive element, alpha - and beta -particles are evolved from the nucleus. ._(0)n^(1) rarr ._(1)H^(1) + ._(-1)e^(0) + Antineutrino + Energy 4 ._(1)H^(1) rarr ._(2)He^(4) + 2 ._(+1)e^(0) + Energy Then, emission of these particles changes the nuclear configuration and results into a daughter nuclide. Emission of an alpha -particles results into a daughter element having atomic number lowered by 2 and mass number by 4, on the other hand, emission of a beta -particle yields an element having atomic number raised by 1. How many alpha - and beta -particle should be emitted from a radioactive nuclide so that an isobar is formed?