The C-O-C bond angle in ethers is slightly less than tetrahedral angle. Reason (R) : Due to the repulsive interaction between the two alkyl groups in ethers.
Answers
Explanation:
The oxygen atom in ether and alcohol is sp3 hybridised, therefore has a tetrahedral geometry where two positions are occupied by lone pairs of electrons and the other two by the alkyl groups in ether and one alkyl and one H in alcohol. The bond angle in regular tetrahedral is 109∘28′.
In general, the lone pairs on O tend to repel the bond pairs and results in lower bond angles than 109∘ in case of alcohols
But in ethers, the C−O−C bond angle is slightly more than this i.e nearly 110∘. This is because of the presence of two bulky alkyl group on O atom. They repel each other and counterbalance the repulsion due to lone pairs on O atom on bond pairs. This results in the bond angle slightly greater than the tetrahedral angle.
The C−O−H bond angle in alcohols is slightly less than the tetrahedral angle whereas the C−O−C bond angle in ether is slightly greater because of repulsion between the two bulky R groups.