[" H-1.Calculate the loss in mass during the change: "],[qquad _(3)^(7)Li+_(1)^(1)H longrightarrow2_(2)^(4)He+17.25MeV]

Calculate the loss in mass during the change: ._(3)Li^(7) + ._(1)He^(1) rarr 2 ._(2)He^(4) + 17.25 MeV

Calculate the loss in mass during the change: ._(3)Li^(7) + ._(1)He^(1) rarr 2 ._(2)He^(4) + 17.25 MeV

Calculate the energy released in MeV during the reaction ._(3)^(7)Li + ._(1)^(1)H to 2[._(2)^(4)He] if the masses of ._(3)^(7)Li, ._(1)^(1)H and ._(2)H_(4)He are 7.018, 1.008 and 4.004 amu respectively.

Binding energy per nucleus of ._(1)^(2)H and ._(2)^(4)He are 1.1 MeV and 7 MeV respectively. Calculate the amount of energy released in the following process: ._(1)^(2)H + ._(1)^(2)H to ._(2)^(4)He

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.

Calculate the energy released in joules in the following nuclear reaction : ""_(1)^(2)H + ""_(1)^(2)H to ""_(2)^(3)He + ""_(0)^(1)N Assume that the masses of ""_(1)^(2)H, ""_(2)^(3)He and neutron are 2.0141, 3.0160 and 1.0087 amu respectively.

The atomic mass of Li,He, and proton are 7.01823 amu, 4.00387 amu, and 1.00715 amu, respectively. Calculate the energy evolved in the reaction. ._(3)Li^(7) rarr ._(1)P^(1) rarr 2 ._(2)He^(4) + Delta E Given 1 amu = 931 MeV .

The atomic mass of Li,He, and proton are 7.01823 amu, 4.00387 amu, and 1.00715 amu, respectively. Calculate the energy evolved in the reaction. ._(3)Li^(7) rarr ._(1)P^(1) rarr 2 ._(2)He^(4) + Delta E Given 1 amu = 931 MeV .