Biomolecules MCQs With Answers – Part 2 (Class 12 Chemistry)
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Biomolecules MCQs with Answers – Part 2 (Class 12 Chemistry)

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101. Complete hydrolysis of starch ultimately gives:
ⓐ. amino acids
ⓑ. glucose
ⓒ. fructose only
ⓓ. nucleotides
102. Consider the following statements about glucose. Statement I: It is a sweet, water-soluble monosaccharide. Statement II: Its open-chain form is classified as an aldohexose. Statement III: It can be obtained by hydrolysis of sucrose or starch. The acceptable statements are:
ⓐ. I and II only
ⓑ. II and III only
ⓒ. I and III only
ⓓ. I, II and III
103. Formation of an oxime when glucose reacts with hydroxylamine provides evidence for the presence of:
ⓐ. a phosphate group
ⓑ. a peptide linkage
ⓒ. a carboxyl group
ⓓ. a carbonyl group
104. A laboratory record states that glucose adds hydrogen cyanide to form a cyanohydrin. The observation most directly supports the conclusion that glucose:
ⓐ. contains a carboxyl group that undergoes cyanide addition
ⓑ. contains an open-chain carbonyl group
ⓒ. contains six ether linkages
ⓓ. behaves only as a cyclic acetal
105. Mild oxidation of glucose with bromine water produces gluconic acid. This transformation indicates that the open-chain form of glucose contains:
ⓐ. a terminal aldehyde group
ⓑ. an internal ketone group
ⓒ. two terminal carboxyl groups
ⓓ. an amide group at \(\mathrm{C_1}\)
106. Formation of glucose pentaacetate on treatment with excess acetic anhydride demonstrates that one glucose molecule contains:
ⓐ. one hydroxyl group
ⓑ. three hydroxyl groups
ⓒ. five hydroxyl groups
ⓓ. six hydroxyl groups
107. Prolonged heating of glucose with excess hydrogen iodide gives \(n\)-hexane. The most useful structural inference is that glucose has:
ⓐ. a branched five-carbon skeleton
ⓑ. a cyclic chain containing only five carbon atoms
ⓒ. two separate three-carbon fragments
ⓓ. an unbranched chain of six carbon atoms
108. Consider the following statements about structural evidence for glucose. Statement I: Oxime formation supports the presence of a carbonyl group. Statement II: Glucose pentaacetate formation supports the presence of five hydroxyl groups. Statement III: Formation of \(n\)-hexane with prolonged hydrogen iodide treatment supports a straight six-carbon chain. The acceptable statements are:
ⓐ. I and II only
ⓑ. I, II and III
ⓒ. II and III only
ⓓ. I and III only
109. Match each reaction of glucose in Column I with the structural conclusion in Column II.
Column IColumn II
P. Oxime formation1. Five hydroxyl groups
Q. Oxidation with bromine water2. Carbonyl group
R. Pentaacetate formation3. Straight six-carbon chain
S. Prolonged heating with \(\mathrm{HI}\)4. Aldehyde group
ⓐ. P-2, Q-4, R-1, S-3
ⓑ. P-4, Q-2, R-3, S-1
ⓒ. P-2, Q-1, R-4, S-3
ⓓ. P-3, Q-4, R-1, S-2
110. The statement “glucose must be an aldehyde because it forms an oxime” is incomplete because:
ⓐ. only aldehydes form oximes, so the aldehyde assignment is complete
ⓑ. oxime formation identifies an aldehyde but excludes a ketone
ⓒ. ketones also form oximes, so oxime formation alone is inconclusive
ⓓ. oxime formation identifies carbonyl position without another test
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