Aldehydes, Ketones And Carboxylic Acids MCQs With Answers – Part 3 (Class 12 Chemistry)
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Aldehydes, Ketones and Carboxylic Acids MCQs with Answers – Part 3 (Class 12 Chemistry)

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201. A student argues that aldehydes and ketones should boil as high as alcohols because all three classes contain oxygen. The most suitable correction is:
ⓐ. Carbonyl oxygen cannot accept hydrogen bonds
ⓑ. Alcohol molecules can both donate and accept hydrogen bonds
ⓒ. Aldehydes and ketones are completely non-polar
ⓓ. Alcohols always have much lower molar masses than carbonyl compounds
202. Match each property in Column I with its most suitable explanation in Column II.
Column IColumn II
P. High water solubility of lower carbonyl compounds1. Growing non-polar hydrocarbon portion
Q. Decreasing water solubility with chain length2. Carbonyl oxygen accepts hydrogen bonds from water
R. Inability to donate hydrogen bonds3. Absence of an oxygen-hydrogen bond
S. Solubility in many organic solvents4. Compatibility of both polar and non-polar molecular regions with suitable solvents
ⓐ. P-1, Q-2, R-3, S-4
ⓑ. P-2, Q-1, R-3, S-4
ⓒ. P-2, Q-3, R-1, S-4
ⓓ. P-4, Q-1, R-2, S-3
203. A carbonyl compound is required as a solvent that is completely miscible with water and also dissolves many organic substances. The most suitable choice is:
ⓐ. Cyclohexanone
ⓑ. Acetophenone
ⓒ. Benzophenone
ⓓ. Propanone
204. The following qualitative data are obtained for four carbonyl compounds.
CompoundRelative carbon-chain sizeWater behaviour
PSmallCompletely miscible
QModeratePartly soluble
RLargeSparingly soluble
SVery largeHighly soluble
Which entry is least consistent with the normal homologous-series trend?
ⓐ. Compound P
ⓑ. Compound S
ⓒ. Compound Q
ⓓ. Compound R
205. Two ethanoic acid molecules form a cyclic dimer. The total number of intermolecular hydrogen bonds in the dimer is:
ⓐ. One
ⓑ. Two
ⓒ. Three
ⓓ. Four
206. Consider the following statements about carboxylic acids. Statement I: Lower members are often liquids with pungent odours. Statement II: Higher members may be solids because intermolecular attractions increase with molecular size. Statement III: Carboxylic acids cannot form intermolecular hydrogen bonds.
ⓐ. Statements I and II only
ⓑ. Statements II and III only
ⓒ. Statements I and III only
ⓓ. Statements I, II, and III
207. Use the arrangement described below: two carboxylic acid molecules are positioned head-to-head so that the hydroxyl hydrogen of each molecule points toward the carbonyl oxygen of the other. This arrangement represents:
ⓐ. A covalent polymer
ⓑ. An ionic salt
ⓒ. A cyclic hydrogen-bonded dimer
ⓓ. A nucleophilic substitution intermediate
208. For compounds of broadly comparable molar mass, the most reasonable increasing order of boiling point is:
ⓐ. Hydrocarbon \(\lt\) carbonyl compound \(\lt\) alcohol \(\lt\) carboxylic acid
ⓑ. Carboxylic acid \(\lt\) alcohol \(\lt\) carbonyl compound \(\lt\) hydrocarbon
ⓒ. Alcohol \(\lt\) hydrocarbon \(\lt\) carboxylic acid \(\lt\) carbonyl compound
ⓓ. Carbonyl compound \(\lt\) carboxylic acid \(\lt\) hydrocarbon \(\lt\) alcohol
209. The row that correctly relates a carboxylic acid property to its explanation is:
RowPropertyExplanation
PHigh boiling pointComplete ionic dissociation in the pure liquid
QDecreasing water solubility with chain lengthThe carboxyl group becomes more polar
RDimer formationEach molecule can donate and accept hydrogen bonds
SHigher members becoming solidsDispersion forces disappear as molecular size increases
ⓐ. Row P
ⓑ. Row Q
ⓒ. Row S
ⓓ. Row R
210. A chemist compares ethanoic acid and hexanoic acid. Ethanoic acid mixes readily with water, whereas hexanoic acid has much lower water solubility. Both compounds contain one carboxyl group. Which conclusion best explains the observation?
ⓐ. Hexanoic acid cannot form hydrogen bonds with water
ⓑ. Ethanoic acid is ionic whereas hexanoic acid is covalent
ⓒ. Its larger hydrocarbon chain opposes hydration more strongly
ⓓ. Hexanoic acid contains fewer carbon atoms than ethanoic acid
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