Which of the following best describes the bonding scheme consistent with the molecular geometry predicted by VSEPR

Consider the molecule CIF3. Which of the following best describes the bonding scheme consistent with the molecular geometry predicted by VSEPR? The central atom is dsp3 hybridized; it forms 3 sigma bonds by overlapping with 2p orbitals on F atoms, and the two sets of lone pairs reside in the remaining unhybridized d orbitals. The central atom is dsp3 hybridized; it forms 3 sigma bonds by overlapping with 2p orbitals on F atoms, and the two sets of lone pairs reside in the remaining hybrid orbitals. The central atom is dsp3 hybridized; it forms 1 sigma bond and 2 pi bonds by overlapping with 2p orbitals on F atoms, and the two sets of lone pairs reside in the remaining hybrid orbitals. The central atom is sp2 hybridized; it forms 3 sigma bonds by overlapping with 2p orbitals on F atoms, and there are no lone pairs remaining on the central atom. The central atom is sp2 hybridized; it forms 3 sigma bonds by overlapping with 2p orbitals on F atoms, and the two sets of lone pairs reside in the remaining unhybridized p orbitals.

The Correct Answer and Explanation is :

The correct answer is:

The central atom is dsp3 hybridized; it forms 3 sigma bonds by overlapping with 2p orbitals on F atoms, and the two sets of lone pairs reside in the remaining hybrid orbitals.

Explanation:

1. Molecular Geometry and Hybridization:
   • The molecular formula ClF3\text{ClF}_3 has chlorine (Cl) as the central atom bonded to three fluorine (F) atoms. Chlorine has 7 valence electrons, and each fluorine contributes one electron for bonding, resulting in 7+3=107 + 3 = 10 total valence electrons around the central atom.
   • These 10 electrons form 5 electron domains: 3 bonding pairs (sigma bonds with F atoms) and 2 lone pairs.
   • According to VSEPR (Valence Shell Electron Pair Repulsion) theory, 5 electron domains correspond to a trigonal bipyramidal electron geometry. The molecular geometry, considering the lone pairs, becomes T-shaped because the lone pairs occupy equatorial positions to minimize repulsion.
2. Hybridization:
   • To accommodate 5 electron domains, the chlorine atom must use dsp3^3 hybrid orbitals, which are formed by combining one ss, three pp, and one dd orbital.
   • In this hybridization, the 3 bonding pairs occupy three hybrid orbitals, forming sigma bonds with the 2p2p orbitals of fluorine atoms. The remaining two hybrid orbitals contain lone pairs of electrons.
3. Lone Pairs:
   • The two lone pairs reside in the equatorial positions of the trigonal bipyramidal geometry, which minimizes electron-electron repulsion because equatorial lone pairs are further apart than axial lone pairs.
4. Incorrect Options:
   • sp2sp^2 hybridization is incorrect because it accommodates only 3 electron domains, not 5.
   • Lone pairs do not occupy unhybridized dd-orbitals; all orbitals used are part of the hybridization. dsp3dsp^3 hybrid orbitals include both bonding and lone pair electrons.

This explanation aligns with the bonding and geometry predicted by VSEPR theory and hybridization concepts.