๐งดAldehyde vs Ketone๐
Aldehydes and ketones both feature the carbonyl group, but the carbonyl's position changes their reactivity.
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๐งดAldehyde
- โCarbonyl group at the end of the carbon chain
- โHas at least one hydrogen on the carbonyl carbon
- โEasily oxidized to carboxylic acids
- โPositive Tollens and Fehling's tests
- โExamples: formaldehyde, acetaldehyde
๐
Ketone
- โCarbonyl group within the carbon chain
- โTwo carbon groups on the carbonyl carbon
- โResistant to mild oxidation
- โNegative Tollens and Fehling's tests
- โExamples: acetone, butanone
Verdict
Aldehydes carry the carbonyl at the chain end and oxidize easily; ketones bury it mid-chain and resist oxidation. Tollens' test tells them apart with a silver mirror.
Frequently asked
How do I distinguish them in the lab?+
Tollens' reagent gives a silver mirror with aldehydes but not with ketones.
Why are aldehydes easier to oxidize?+
The hydrogen on their carbonyl carbon can be removed during oxidation to a carboxylic acid.
What do they have in common?+
Both contain the carbonyl group, a carbon double bonded to oxygen.
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