Calculate the energy in the reaction
`2 ._(1)^(1)H + 2 ._(0)^(1)n to ._(2)^(4)He`
Given, H = 1.00813 amu, n = 1.00897 amu and He = 4.00388

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 .

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

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

Calculate the energy released in the reaction, ""_(17)^(35)Cl + ""_(0)^(1)n to ""_(16)^(35)S + ""_(1)^(1)H [(Cl-35) = 34.9688 amu (S-35) = 34.9690 amu, (H-1) = 1.0078 amu, ""_(0)^(1)n =1 .0087 amu]

Calculate mass defect in the following reaction: H_1^2 + H_1^3 to He_2^4+n_0^1 (Given: mass H^(2) = 2.014 am u, H^3 = 3.016 amu He= 4.004,n =1.008amu)

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 mass loss in the following: ._(1)^(2)H + ._(1)^(3)H to ._(2)^(4)He + ._(0)^(1)n given the masses: ._(1)^(2)H = 2.014 amu, ._(1)^(3)H = 3.016 amu: ._(2)^(4)He = 4.004 amu, ._(0)^(1)n = 008 amu

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