Hydrocarbons MCQs With Answers – Part 4 (Class 11 Chemistry)
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Hydrocarbons MCQs with Answers – Part 4 (Class 11 Chemistry)

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311. If \(1.0\,\text{mol}\) of \( \mathrm{CaC_2} \) reacts completely with water, the amount of ethyne produced is
ⓐ. \(0.5\,\text{mol}\)
ⓑ. \(1.0\,\text{mol}\)
ⓒ. \(2.0\,\text{mol}\)
ⓓ. \(4.0\,\text{mol}\)
312. A laboratory gas preparation gives \( \mathrm{C_2H_2} \) when a solid reacts with water and leaves \( \mathrm{Ca(OH)_2} \). The solid is most likely
ⓐ. \( \mathrm{CaCO_3} \)
ⓑ. \( \mathrm{NaCl} \)
ⓒ. \( \mathrm{CH_3COONa} \)
ⓓ. \( \mathrm{CaC_2} \)
313. Dehydrohalogenation of a vicinal dihalide can prepare an alkyne when
ⓐ. two molecules of hydrogen halide are eliminated
ⓑ. one molecule of water is added across a triple bond
ⓒ. carbon dioxide is removed from a carboxylate
ⓓ. two alkyl halide molecules couple with sodium
314. The conversion of \( \mathrm{CH_2BrCH_2Br} \) into \( \mathrm{HC\equiv CH} \) requires removal of
ⓐ. \( \mathrm{H_2O} \)
ⓑ. \( \mathrm{CO_2} \)
ⓒ. \( \mathrm{2HBr} \)
ⓓ. \( \mathrm{Br_2} \) only, with no hydrogen loss
315. A table compares preparation routes for unsaturated hydrocarbons.
RowStarting materialMain routeProduct type
Palcoholdehydrationalkene
Qalkyl halidedehydrohalogenationalkene
Rvicinal dihalidedouble dehydrohalogenationalkyne
Scalcium carbidereaction with waterethyne
The fully suitable set of rows is
ⓐ. P and Q only
ⓑ. R and S only
ⓒ. P only
ⓓ. P, Q, R, and S
316. A claim says, “The formula \( \mathrm{C_4H_6} \) proves a compound is but-\(1\)-yne.” The better conclusion is that
ⓐ. formula alone does not fix the exact alkyne name
ⓑ. \( \mathrm{C_4H_6} \) must be an alkane
ⓒ. \( \mathrm{C_4H_6} \) cannot contain only carbon and hydrogen
ⓓ. every compound with \( \mathrm{C_4H_6} \) must be ethyne
317. Alkynes, like alkanes and alkenes, are generally poorly soluble in water because they are
ⓐ. highly ionic salts
ⓑ. strong mineral acids
ⓒ. non-polar hydrocarbons
ⓓ. compounds containing many \( \mathrm{-OH} \) groups
318. For straight-chain alkynes in a homologous series, the boiling point generally increases as the carbon number increases mainly because
ⓐ. the compounds become ionic
ⓑ. every higher member forms hydrogen bonds with water
ⓒ. the triple bond disappears in higher members
ⓓ. molecular size and dispersion forces increase
319. The relatively higher acidity of terminal alkynes compared with alkenes is mainly due to the
ⓐ. presence of oxygen in all alkynes
ⓑ. free rotation around the \( \mathrm{C\equiv C} \) bond
ⓒ. greater \(s\)-character of the \(sp\)-carbon bonded to hydrogen
ⓓ. formation of \( \mathrm{CO_2} \) during ordinary ionisation
320. The compound that contains an acidic terminal alkyne hydrogen is
ⓐ. \( \mathrm{CH_3C\equiv CCH_3} \)
ⓑ. \( \mathrm{HC\equiv CCH_3} \)
ⓒ. \( \mathrm{CH_2=CHCH_3} \)
ⓓ. \( \mathrm{CH_3CH_2CH_3} \)
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