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(C) Energy is released $(\varepsilon > 0)$ in a nuclear reaction if the total binding energy of the products is greater than the total binding energy

Vedclass · Accepted Answer

$(i)$ and $(iv)$

Vedclass · Answer

(C) Energy is released $(\varepsilon > 0)$ in a nuclear reaction if the total binding energy of the products is greater than the total binding energy of the reactants. This corresponds to a process where the system moves towards a state of higher binding energy per nucleon $(E_b/A)$.$1$. In reaction $(i)$,$A + B 	o C$,the product $C$ has a higher $E_b/A$ than the reactants $A$ and $B$. Thus,energy is released $(\varepsilon > 0)$.$2$. In reaction $(iv)$,$F 	o D + E$,the products $D$ and $E$ have a higher $E_b/A$ than the reactant $F$. Thus,energy is released $(\varepsilon > 0)$.Therefore,$\varepsilon$ is positive in reactions $(i)$ and $(iv)$.

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