Draw the Lewis structure for H2SO4, a neutral molecule.
The correct answer and explanation is :
The Lewis structure of sulfuric acid (H₂SO₄) consists of a central sulfur atom bonded to four oxygen atoms, with two of those oxygens also bonded to hydrogen atoms. Below is the correct Lewis structure:
Step-by-Step Construction:
- Determine the Total Valence Electrons:
- Hydrogen (H) = 1 × 2 = 2
- Sulfur (S) = 6 × 1 = 6
- Oxygen (O) = 6 × 4 = 24
- Total Valence Electrons = 2 + 6 + 24 = 32 electrons
- Identify the Central Atom:
- Sulfur (S) is the least electronegative (except hydrogen) and can expand its octet.
- Draw Single Bonds:
- Connect sulfur to four oxygens via single bonds.
- Attach hydrogens to two oxygens, making hydroxyl (-OH) groups.
- Complete the Octets:
- The two OH oxygens have 8 electrons (2 from bonding, 6 as lone pairs).
- The remaining two oxygens form double bonds with sulfur to satisfy the octet rule.
- Check Formal Charges:
- The double-bonded oxygens have a formal charge of 0.
- The OH groups keep neutral charges.
- Sulfur follows the expanded octet rule (12 valence electrons) but remains neutral.
Final Structure:
O
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H—O—S—O—H
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OThe molecule is tetrahedral around sulfur, and resonance occurs in the double-bonded oxygens.
Explanation:
- Strong Acid Properties: H₂SO₄ is a strong acid because the O-H bonds readily dissociate in water.
- Octet Expansion: Sulfur can hold more than 8 electrons due to its position in Period 3.
- Resonance: The two S=O bonds resonate, making the structure more stable.
This structure correctly follows valence and charge rules, explaining H₂SO₄’s strong acidity and molecular stability.