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Nuclear binding energy is the energy released during the hypothetical formation of the nucleus by the condensation of individual nucleons. Thus, binding energy per nucleon =Total binding energyNumber of nucleons For example, the mass of hydrogen atom is equal to the sum of the masses of a proton and an electron. For other atoms, the atomic mass is less than the sum of the masses of protons, neutrons and electrons present. This difference in mass, termed as mass defect, is a measure of the binding energy of protons and neutrons in the nucleus. The mass-energy relationship postulated by Einstein is expressed as: ΔE=Δmc2
Where ΔE is the energy liberated, Δm is the loss of mass, and c is the speed of light.
In the reaction 21H+31H42He+10n, if binding energies 21H,31H and 42He are respectively a, b and c (in MeV), then the energy released in this reaction is:

A
a+b+c
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B
a+bc
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C
cab
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D
c+ab
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Solution

The correct option is C cab
21H+31H 42He+ 10n
B.E a b c

mass defect = B.Ec2
mass defect = cabc2

ΔE=Δm×c2
= cabc2×c2
= cab

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