NVAEasyJEE 2023Covalent Bonding & Lewis Structures

JEE Chemistry 2023 Question with Solution

The maximum number of lone pairs of electrons on the central atom from the following species is _____.

ClO3\mathrm{ClO_3^-}, XeF4\mathrm{XeF_4}, SF4\mathrm{SF_4}, and I3\mathrm{I_3^-}

Answer

Correct answer:3

Step-by-step solution

Standard Method

Given: The species are ClO3\mathrm{ClO_3^-}, XeF4\mathrm{XeF_4}, SF4\mathrm{SF_4} and I3\mathrm{I_3^-}.

Find: The maximum number of lone pairs on the central atom.

Analyse each species using its Lewis structure:

  1. ClO3\mathrm{ClO_3^-}: the central chlorine atom has 1 lone pair.
  2. XeF4\mathrm{XeF_4}: the central xenon atom has 2 lone pairs.
  3. SF4\mathrm{SF_4}: the central sulfur atom has 1 lone pair.
  4. I3\mathrm{I_3^-}: the central iodine atom has 3 lone pairs.

Comparing these values, the maximum number of lone pairs on the central atom is 33.

Therefore, the required numerical answer is 33.

Species-wise Analysis

Given: Determine the number of lone pairs on the central atom in each species.

Find: Which species has the maximum value.

For ClO3\mathrm{ClO_3^-}:

7+(3×6)+1=267 + (3 \times 6) + 1 = 26

The Lewis structure shows that the central Cl atom has 1 lone pair.

Lewis structure of chlorate ion showing central chlorine bonded to three oxygen atoms, with one oxygen carrying negative charge.

For XeF4\mathrm{XeF_4}:

8+(4×7)=368 + (4 \times 7) = 36

The Lewis structure shows that the central Xe atom has 2 lone pairs.

Lewis structure of xenon tetrafluoride showing central xenon bonded to four fluorine atoms arranged in a square planar pattern.

For SF4\mathrm{SF_4}:

6+(4×7)=346 + (4 \times 7) = 34

The Lewis structure shows that the central S atom has 1 lone pair.

Lewis structure of sulfur tetrafluoride showing central sulfur bonded to four fluorine atoms, representing the electron pair arrangement around sulfur.

For I3\mathrm{I_3^-}:

7+7+7+1=227 + 7 + 7 + 1 = 22

The Lewis structure shows that the central I atom has 3 lone pairs.

Lewis structure of triiodide ion showing a central iodine atom connected to two iodine atoms, indicating the central atom in the ion.

Thus, among all the given species, the largest number of lone pairs on the central atom is 33, found in I3\mathrm{I_3^-}.

Common mistakes

  • Counting lone pairs on the terminal atoms instead of the central atom is incorrect. The question asks only about the central atom, so compare the lone pairs on Cl, Xe, S, and the central I only.

  • Assuming that more surrounding atoms always means fewer lone pairs without drawing or recalling the Lewis structure is incorrect. Lone pairs depend on the total valence electron count and bonding arrangement, so each species must be checked individually.

  • Missing the extra electron in negatively charged ions such as ClO3\mathrm{ClO_3^-} and I3\mathrm{I_3^-} gives a wrong electron count. Always include the charge while calculating total valence electrons.

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