Pyridine () is widely utilized as a mild base in organic synthesis, whereas pyrrole () is essentiall — GOC and Organic Chemistry Basics Chemistry Question
Question
Pyridine ($C_5H_5N$) is widely utilized as a mild base in organic synthesis, whereas pyrrole ($C_4H_4NH$) is essentially non-basic. What is the fundamental quantum-mechanical reason for this dramatic difference in basic strength?
Answer: B
💡 Solution & Explanation
In pyrrole, the nitrogen atom contributes its unshared lone pair from an unhybridized p-orbital to complete the continuous $6\pi$ -electron aromatic sextet. Protonating this nitrogen breaks the aromaticity, a highly unfavorable process. In pyridine, the aromatic sextet is formed purely by the double bonds, leaving the nitrogen's lone pair strictly localized and orthogonal to the ring in an $sp^2$ hybrid orbital, freely available to act as a base.
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