Affiliation:
1. School of Chemistry and Molecular Biosciences The University of Queensland Brisbane Queensland 4072 Australia
Abstract
AbstractKekulé postulated that neighbouring carbon atoms in benzene undergo incessant collision with each other, thereby leading to the interchange of double and single bonds, which amounts to an oscillation between two cyclohexatriene structures in dynamic equilibrium. It has been claimed that Kekulé arrived at a fully symmetricD6hstructure of benzene and that the oscillation hypothesis should not be attributed to him. However, Clausius’ collision theory, which was known at the time, implies that, when the absolute temperature approaches zero, the collision frequency will tend toward zero too, i.e. collisions will stop, and a static,D3hcyclohexatriene obtains. The classical collision theory did not allow Kekulé to construct the desiredD6hstructure as the energy minimum. The theory of harmonic oscillators would have allowed it, but that was not attempted at Kekulé’s time.
Subject
Organic Chemistry,Physical and Theoretical Chemistry
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