What does X stand for in the following nuclear reaction .
`""_(1)H^(2) + ""_(1)H^(2) = "_(1)H^(3) + X`

Calculate the energy released in joules and MeV in the following nuclear reaction: ._(1)H^(2) + ._(1)H^(2) rarr ._(2)He^(3) + ._(0)n^(1) Assume that the masses of ._(1)H^(2) , ._(2)He^(3) , and neutron (n) , respectively, are 2.40, 3.0160, and 1.0087 in amu.

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

Which is the missing particle in the following nuclear reaction ? ""_(3)Li^(7) + ""_(1)H^(2) rarr ""_(3)Li^(8) + ?

The nuclear reaction ._(1)^(2)H + ._(1)^(2)H to ._(2)^(4)He is called

Calculate the energy released in joules and MeV in the following nuclear reaction : ._(1)^(2) H+_(1)^(2) rarr _(2)^(3)He + _(0)^(1)n Assume that the masses of ._(1)^(2)H, _(2)^(3)He and neutron (n) respectively are 2.020, 3.0160 and 1.0087 in amu.

What is X in the following nuclear reaction? N_7^14 + H_1^1 to O_8^15 +X

In the nuclear reaction ""_(13)Al^(27)+""_(2)He^(4) to ""_(14)X^(30)+""_(1)H^(1), X is

What is X in the nuclear reaction ._(7)N^(14) + ._(1)H^(1) rarr ._(8)O^(15) + X

Calculate the energy of the following nuclear reaction: ._(1)H^(2)+._(1)H^(3) to ._(2)He^(4) + ._(0)n^(1)+Q Given: m(._(1)H^(2))=2.014102u, m(._(1)H^(3))=3.016049u, m(._(2)He^(4))=4.002603u, m(._(0)n^(1))=1.008665u