How many lone pairs of electrons are found on the central atom of HCN?
The Correct Answer and Explanation is:
Correct Answer:
Zero (0) lone pairs of electrons are found on the central atom of HCN.
Explanation:
HCN (hydrogen cyanide) is a linear molecule with the chemical formula H–C≡N. To determine the number of lone pairs on the central atom, we must first understand the Lewis structure and the electron configuration.
- Identify the atoms involved:
- H (hydrogen)
- C (carbon)
- N (nitrogen)
- Determine the central atom:
Carbon is the central atom because it can form four bonds and is more capable of acting as a bridge between hydrogen and nitrogen. - Count total valence electrons:
- Hydrogen contributes 1 valence electron.
- Carbon contributes 4 valence electrons.
- Nitrogen contributes 5 valence electrons.
Total = 1 + 4 + 5 = 10 valence electrons
- Construct the basic skeleton:
Arrange atoms as H–C–N. - Distribute electrons to satisfy the octet rule:
- Hydrogen forms a single bond with carbon.
- Carbon forms a triple bond with nitrogen to fulfill the octet for both atoms.
- The triple bond accounts for 6 electrons between carbon and nitrogen.
- One single bond connects hydrogen to carbon (2 electrons).
- This uses 8 electrons in bonds.
- The remaining 2 electrons go as a lone pair on nitrogen.
- Check the central atom (carbon):
- Carbon is involved in four bonds (1 single bond with H and 3 with N).
- It uses all 4 of its valence electrons in bonding.
- Therefore, carbon has no lone pairs.
- Conclusion:
The central atom (carbon) in HCN has zero lone pairs. All its valence electrons are involved in bonding, creating a linear geometry with no unshared pairs around carbon.
