The bond dissociation energy of $$B-F$$ in$$~B{{F}_{3}}$$ is $$646\text{ }kJ\text{ }mo{{l}^{-1}}$$ whereas that of $$C-F$$ in $$C{{F}_{4}}$$ is$$515\text{ }kJ\text{ }mo{{l}^{-1}}$$. The correct reason for higher $$B-F$$ bond dissociation energy as compared to that of $$C-F$$ is

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TuteeHUB · Accepted Answer

lower degree of $$p\pi -p\pi $$ interaction between B and F in $$~B{{F}_{3}}$$ than that between C and F in $$C{{F}_{4}}$$

TuteeHUB · Answer

stronger $$\sigma $$ bond between B and F in$$~B{{F}_{3}}$$ as compared to that between C and F in $$C{{F}_{4}}$$.

TuteeHUB · Answer

significant $$p\pi -p\pi $$ interaction between B and F in$$B{{F}_{3}}$$ whereas there is no possibility of such interaction between C and F in$$C{{F}_{4}}$$.

TuteeHUB · Answer

Smaller size of $$B-atom$$ as compared to that of C-atom.

1.	The bond dissociation energy of \[B-F\] in\[~B{{F}_{3}}\] is \[646\text{ }kJ\text{ }mo{{l}^{-1}}\] whereas that of \[C-F\] in \[C{{F}_{4}}\] is\[515\text{ }kJ\text{ }mo{{l}^{-1}}\]. The correct reason for higher \[B-F\] bond dissociation energy as compared to that of \[C-F\] is
A.	stronger \[\sigma \] bond between B and F in\[~B{{F}_{3}}\] as compared to that between C and F in \[C{{F}_{4}}\].
B.	significant \[p\pi -p\pi \] interaction between B and F in\[B{{F}_{3}}\] whereas there is no possibility of such interaction between C and F in\[C{{F}_{4}}\].
C.	lower degree of \[p\pi -p\pi \] interaction between B and F in \[~B{{F}_{3}}\] than that between C and F in \[C{{F}_{4}}\]
D.	Smaller size of \[B-atom\] as compared to that of C-atom.
Answer» C. lower degree of \[p\pi -p\pi \] interaction between B and F in \[~B{{F}_{3}}\] than that between C and F in \[C{{F}_{4}}\]

The bond dissociation energy of \[B-F\] in\[~B{{F}_{3}}\] is \[646\text{ }kJ\text{ }mo{{l}^{-1}}\] whereas that of \[C-F\] in \[C{{F}_{4}}\] is\[515\text{ }kJ\text{ }mo{{l}^{-1}}\]. The correct reason for higher \[B-F\] bond dissociation energy as compared to that of \[C-F\] is

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