Amines MCQs With Answers – Part 4 (Class 12 Chemistry)
GKaim: Measure. Improve. Achieve.

Amines MCQs with Answers – Part 4 (Class 12 Chemistry)

Timer: Off
Random: Off

301. An unknown amine forms no sulphonamide with Hinsberg reagent, remains unreacted in excess alkali, and dissolves when dilute acid is added. The amine is:
ⓐ. primary
ⓑ. secondary
ⓒ. tertiary
ⓓ. a quaternary ammonium ion
302. An unknown amine gives a positive carbylamine test. Its Hinsberg product dissolves in excess alkali and reappears on acidification. With nitrous acid, the amine produces brisk nitrogen evolution and an alcohol. The amine is:
ⓐ. a secondary aliphatic amine
ⓑ. a primary aromatic amine
ⓒ. a primary aliphatic amine
ⓓ. a tertiary aliphatic amine
303. Review the qualitative-test records below.
RowAmine classCarbylamine testHinsberg behaviourNitrous-acid behaviour
PPrimary aliphaticPositiveProduct soluble in alkali\(\mathrm{N_2}\) evolution and alcohol formation
QSecondaryNegativeInsoluble sulphonamide\(\mathrm{N}\)-nitrosoamine formation
RTertiary aliphaticNegativeNo ordinary sulphonamide; amine dissolves in acidNo primary-amine nitrogen evolution
SPrimary aromaticNegativeProduct soluble in alkaliDiazonium salt at low temperature
The completely valid rows are:
ⓐ. P and S only
ⓑ. Q and R only
ⓒ. P, Q and S only
ⓓ. P, Q and R only
304. Use the following passage. An unknown amine gives no carbylamine reaction. With benzenesulphonyl chloride, it forms a neutral solid that remains insoluble in alkali. On treatment with nitrous acid, it gives a yellow oily product without brisk evolution of nitrogen gas. The unknown is most reasonably:
ⓐ. a primary aliphatic amine
ⓑ. a secondary amine
ⓒ. a tertiary aliphatic amine
ⓓ. a primary aromatic amine
305. Acylation can distinguish a secondary amine from a tertiary amine because:
ⓐ. both classes lack an \(\mathrm{N-H}\) bond and therefore show no acylation difference
ⓑ. a tertiary amine forms an ordinary stable amide, whereas a secondary amine does not
ⓒ. a secondary amine has an \(\mathrm{N-H}\) bond and forms an amide, whereas a tertiary amine lacks that bond
ⓓ. both classes form identical amides because only the nitrogen lone pair is required
306. A mixture contains methylamine, dimethylamine, and trimethylamine. Complete neutralisation shows that the mixture contains \(0.200\ \mathrm{mol}\) of total amines. The carbylamine test produces \(0.0500\ \mathrm{mol}\) of isocyanide, while complete Hinsberg reaction consumes \(0.140\ \mathrm{mol}\) of benzenesulphonyl chloride. Using molar masses \(31.0\), \(45.0\), and \(59.0\ \mathrm{g\,mol^{-1}}\), respectively, the amounts of the three amines and the total mixture mass are:
ⓐ. \(0.0500\), \(0.0600\), \(0.0900\ \mathrm{mol}\); \(9.56\ \mathrm{g}\)
ⓑ. \(0.0500\), \(0.0900\), \(0.0600\ \mathrm{mol}\); \(9.14\ \mathrm{g}\)
ⓒ. \(0.0900\), \(0.0500\), \(0.0600\ \mathrm{mol}\); \(8.86\ \mathrm{g}\)
ⓓ. \(0.0600\), \(0.0900\), \(0.0500\ \mathrm{mol}\); \(9.02\ \mathrm{g}\)
307. Two unknown amines P and Q both give negative carbylamine tests. A graph plots moles of stable acyl derivative formed against moles of ethanoyl chloride added to equal initial amounts of P and Q. Curve P rises with slope \(1\) and reaches a plateau, whereas curve Q remains at zero. Which assignment is most reasonable?
ⓐ. P is secondary and Q is tertiary
ⓑ. P is tertiary and Q is secondary
ⓒ. P is primary and Q is tertiary
ⓓ. P is tertiary and Q is primary
308. Why should odour alone not be used to identify an unknown amine?
ⓐ. amines of the same class always have indistinguishable odours
ⓑ. only volatile primary amines produce a detectable odour
ⓒ. odour changes predictably enough to determine exact molecular structure
ⓓ. odour varies with concentration, impurities, and observer perception
309. Aliphatic diazonium ions decompose much more readily than arenediazonium ions mainly because:
ⓐ. they lack the resonance stabilisation available to arenediazonium ions
ⓑ. aliphatic diazonium ions contain no nitrogen atoms
ⓒ. arenediazonium ions cannot lose molecular nitrogen
ⓓ. alkyl groups stabilise aliphatic diazonium ions more strongly than aryl groups
310. Assertion: Under ideal stoichiometric conditions, one mole of a primary aliphatic monoamine can produce one mole of nitrogen gas with nitrous acid. Reason: The two nitrogen atoms present in the amine-derived diazonium group leave together as one molecule of \(\mathrm{N_2}\).
ⓐ. 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
ⓓ. Both Assertion and Reason are true, and Reason explains Assertion
Subscribe
Notify of
guest
0 Comments
Scroll to Top