Given: In the most stable structure of ClF3, n is the number of lone pairs present in the equatorial position. We must identify the ions having n unpaired electrons.
Find: The correct option.
For ClF3, chlorine has 7 valence electrons and forms 3 bonds with fluorine. Thus, there are 5 electron pairs around chlorine, of which 3 are bond pairs and 2 are lone pairs. The electron pair geometry is trigonal bipyramidal and the molecule is T-shaped.
In a trigonal bipyramidal arrangement, lone pairs prefer equatorial positions to minimize repulsion. Therefore, both lone pairs occupy equatorial positions, so
n=2Now compare the number of unpaired electrons in the given ions:
- V3+:[Ar]3d2, so it has 2 unpaired electrons.
- Ti3+:[Ar]3d1, so it has 1 unpaired electron.
- Cu2+:[Ar]3d9, so it has 1 unpaired electron.
- Ni2+:[Ar]3d8, so it has 2 unpaired electrons.
- Ti2+:[Ar]3d2, so it has 2 unpaired electrons.
Thus, the ions with exactly 2 unpaired electrons are V3+, Ni2+, and Ti2+.
Therefore, the correct option is C: A, D and E Only.
The solution labels the correct option as A, but its working and final conclusion clearly give A, D and E only, which corresponds to option C in the listed options.