The B-F bond dissociation energy in BF_3 is 6 | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(C) In $BF_3$,the Boron atom is electron-deficient and has an empty $2p$ orbital. The Fluorine atom has lone pairs in its $2p$ orbitals. This allows f

Vedclass · Accepted Answer

Presence of $p\pi - p\pi$ back-bonding between $B$ and $F$ in $BF_3$,which is not possible between $C$ and $F$ in $CF_4$.

Vedclass · Answer

(C) In $BF_3$,the Boron atom is electron-deficient and has an empty $2p$ orbital. The Fluorine atom has lone pairs in its $2p$ orbitals. This allows for $p\pi - p\pi$ back-bonding (donation of electron density from $F$ to $B$),which imparts partial double bond character to the $B-F$ bond. This additional bond character increases the bond strength and consequently the bond dissociation energy. In $CF_4$,Carbon has a complete octet and no empty $p$ orbitals,so no such back-bonding occurs. Therefore,the $B-F$ bond is stronger than the $C-F$ bond.

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?

Similar Questions

Which of the following compounds are covalent?

Explain: Non-polar and polar covalent bonds.

In which of the following molecules are $\pi-$ electrons not delocalized?

The electronic configuration of three elements $A$,$B$ and $C$ are given below. Stable form of $C$ may be represented by the formula
$A : 1s^2, 2s^2, 2p^6$
$B : 1s^2, 2s^2, 2p^6, 3s^2, 3p^3$
$C : 1s^2, 2s^2, 2p^6, 3s^2, 3p^5$

The bond dissociation energies of $F_2, Cl_2, Br_2$ and $I_2$ are $37, 58, 46$ and $36 \ kcal/mol$ respectively. Which of these has the strongest bond?

Vedclass Test Series

Exam Paper Generator

Online Exam Module