Identify the molecule (X) with maximum number of lone pairs of electrons (obtained using Lewis dot structure) among , , , and . Choose the correct bond angle made by the central atom of the molecule (X).
- A
- B
- C
- D
Identify the molecule (X) with maximum number of lone pairs of electrons (obtained using Lewis dot structure) among , , , and . Choose the correct bond angle made by the central atom of the molecule (X).
Correct answer:D
Standard Method
Given: The molecules are , , , and .
Find: The molecule with the maximum total number of lone pairs and the bond angle made by its central atom.
Approach: Count the total lone pairs in the Lewis dot structures of all given molecules, then use VSEPR theory for the identified molecule.
From the provided explanation:
Thus, molecule (X) is .
In , nitrogen has bond pairs and lone pair, so it is hybridized. Because fluorine is highly electronegative, the bonding electron pairs are pulled away from nitrogen, which reduces bond-pair repulsion near the central atom. Hence, the bond angle becomes smaller than the ideal tetrahedral angle .
The bond angle is approximately .
Therefore, the correct option is D.
Counting lone pairs only on the central atom is incorrect because the question asks for the maximum number of lone pairs in the whole molecule using the Lewis structure. Count lone pairs on both central and peripheral atoms.
Choosing by comparing directly with is incorrect. In , fluorine pulls bonding electrons away, so the bond angle decreases further to about .
Assuming the angle must be close to the tetrahedral value is incorrect. VSEPR gives the basic geometry, but electronegativity effects modify the actual bond angle.
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