Aldehydes, Ketones And Carboxylic Acids MCQs With Answers – Part 2 (Class 12 Chemistry)
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Aldehydes, Ketones and Carboxylic Acids MCQs with Answers – Part 2 (Class 12 Chemistry)

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111. Consider the following statements about carbonyl resonance and polarity. Statement I: The neutral contributor contains a carbon-oxygen double bond. Statement II: The charge-separated contributor places positive charge on carbon and negative charge on oxygen. Statement III: The resonance description supports nucleophilic attack at the carbonyl oxygen rather than the carbonyl carbon.
ⓐ. Statements I and II only
ⓑ. Statements II and III only
ⓒ. Statements I and III only
ⓓ. Statements I, II, and III
112. A diagram shows a dipole arrow along a carbonyl bond. The arrow should point:
ⓐ. From oxygen to carbon, with the positive end near oxygen
ⓑ. From oxygen to carbon, with the positive end near carbon
ⓒ. Perpendicular to the bond, with the positive end near oxygen
ⓓ. From carbon to oxygen, with the positive end near carbon
113. Assertion: The carboxyl group is approximately planar. Reason: The carbonyl carbon is \(\mathrm{sp^2}\)-hybridised, and lone-pair interaction from the hydroxyl oxygen favours conjugation.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
114. A molecule contains \(\mathrm{-CO-}\) at carbon \(2\) and \(\mathrm{-OH}\) at carbon \(4\). It should not be classified as a carboxylic acid because:
ⓐ. A carboxylic acid must contain only one oxygen atom
ⓑ. The hydroxyl oxygen must form a carbon-oxygen double bond
ⓒ. The carbonyl and hydroxyl groups lie on different carbons
ⓓ. A carboxylic acid must contain an aromatic ring
115. The bond most directly responsible for proton donation by a carboxylic acid is:
ⓐ. The carbon-carbon bond next to the carboxyl group
ⓑ. The oxygen-hydrogen bond of the carboxyl group
ⓒ. The carbonyl carbon-oxygen sigma bond
ⓓ. The bond between the carboxyl carbon and the alkyl group
116. Consider the following statements about the carboxyl group. Statement I: It contains a carbonyl oxygen and a hydroxyl oxygen. Statement II: Its carbon atom is approximately trigonal planar. Statement III: It behaves exactly like an isolated ketone group plus an isolated alcohol group.
ⓐ. Statements I and III only
ⓑ. Statements II and III only
ⓒ. Statements I and II only
ⓓ. Statements I, II, and III
117. Compared with the \(\mathrm{O-H}\) bond in a typical alcohol, the \(\mathrm{O-H}\) bond in a carboxylic acid is more readily ionised mainly because:
ⓐ. The alcohol oxygen has no lone pairs
ⓑ. The carboxylate ion formed is resonance stabilised
ⓒ. The carboxyl carbon is \(\mathrm{sp^3}\)-hybridised
ⓓ. The acid contains a non-polar oxygen-hydrogen bond
118. Match each structural feature in Column I with its description in Column II.
Column IColumn II
P. Carboxyl carbon1. Bears the ionisable hydrogen in the neutral acid
Q. Carbonyl oxygen2. Approximately \(\mathrm{sp^2}\)-hybridised centre
R. Hydroxyl oxygen3. Doubly bonded to carbon in the principal neutral structure
S. Carboxyl group4. Carbonyl and hydroxyl parts on the same carbon
ⓐ. P-4, Q-3, R-2, S-1
ⓑ. P-3, Q-2, R-1, S-4
ⓒ. P-2, Q-1, R-3, S-4
ⓓ. P-2, Q-3, R-1, S-4
119. The interaction between the hydroxyl oxygen and the carbonyl system in a carboxylic acid involves donation of a lone pair into the adjacent ______ system.
ⓐ. Sigma-bond
ⓑ. Carbon-carbon single-bond
ⓒ. Pi-electron
ⓓ. Hydrogen-bond
120. Two equal carbon-oxygen bond lengths are observed in a carboxylate ion. This equality is best explained by:
ⓐ. Conversion of both oxygen atoms into neutral hydroxyl groups
ⓑ. Rapid rotation that alternates a localised single bond and a localised double bond
ⓒ. Complete loss of pi bonding from the carboxylate group
ⓓ. Delocalisation of the negative charge and pi bonding over both oxygen atoms
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