Calculate the energy released in the following reaction
`._3Li^6 + ._0n^1 to ._2He^4 + ._1H^3`

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.

Calculate the energy released in the following: ._(1)H^(2) + ._(1)H^(3) rarr ._(2)He^(4) + ._(0)n^(1) (Given masses : H^(2) = 2.014, H^(3) = 3.016, He = 4.003, n = 1.009 m_(u))

Calculate the energy released in the following: ._(1)H^(2) + ._(1)H^(3) rarr ._(2)He^(4) + ._(0)n^(1) (Given masses : H^(2) = 2.014, H^(3) = 3.016, He = 4.003, n = 1.009 m_(u))

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

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.

A neutron is absorbed by a ._3Li^6 nucleus with subsequent emission of an alpha particle. Write the corresponding nuclear reaction. Calculate the energy released in this reaction. m(._3Li^6)=6.015126u, m(._2He^4)=4.0026044u m(._0n^1)=1.0086654u, m(._1He^3)=3.016049u Take 1u=931MeV .

Calculate the energy released in the following nuclear reaction: ""_(1)^(2)H+ ""_(1)^(2)H =""_(2)^(4)He Mass of ""_(1)^(2)H = 2.01419u, Mass of ""_(2)^(4)He =4.00277u