According to the alternation effect observed in the melting points of the first ten aliphatic carbox — Aldehydes Ketones and Carboxylic Acids Chemistry Question
Question
According to the alternation effect observed in the melting points of the first ten aliphatic carboxylic acids, why does an acid with an even number of carbon atoms have a higher melting point than the immediately adjacent odd-carbon acids?
Answer: B
💡 Solution & Explanation
The melting point depends heavily on crystal lattice packing. In carboxylic acids with an even number of carbon atoms, the terminal $-CH_3$ and $-COOH$ groups lie on opposite sides of the zig-zag carbon chain. This symmetry allows for highly efficient, close packing in the crystal lattice, resulting in unusually high melting points compared to odd-carbon acids.
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