The $B-F$ bond dissociation energy in $BF_3$ is $646 \, kJ \, mol^{-1}$,whereas the $C-F$ bond dissociation energy in $CF_4$ is $515 \, kJ \, mol^{-1}$. Which of the following is the correct reason for the $B-F$ bond dissociation energy being higher than the $C-F$ bond dissociation energy?
- ASmaller size of $B$ atom compared to $C$ atom.
- BStronger bond between $B$ and $F$ in $BF_3$ compared to the weaker bond between $C$ and $F$ in $CF_4$.
- CPresence of $p\pi - p\pi$ interaction between $B$ and $F$ in $BF_3$,which is not possible between $C$ and $F$ in $CF_4$.
- DLess interaction between $C$ and $F$ in $CF_4$ compared to $p\pi - p\pi$ interaction between $B$ and $F$ in $BF_3$.
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