Haloalkanes And Haloarenes MCQs With Answers – Part 5 (Class 12 Chemistry)
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Haloalkanes and Haloarenes MCQs with Answers – Part 5 (Class 12 Chemistry)

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411. A learner claims that the Fittig reaction is the standard sodium-coupling method for converting chlorobenzene and chloromethane into toluene. The claim is:
ⓐ. correct, because toluene is a biaryl compound
ⓑ. correct, because every sodium coupling involving an aryl halide is called Fittig
ⓒ. incorrect, because chlorobenzene cannot participate in any sodium coupling
ⓓ. incorrect; this is Wurtz–Fittig coupling
412. Two dry-ether reaction vessels contain sodium metal. Vessel P contains bromobenzene only. Vessel Q contains bromobenzene and bromoethane. The expected principal coupling products are:
ⓐ. P gives biphenyl, while Q gives ethylbenzene
ⓑ. P gives ethylbenzene, while Q gives biphenyl
ⓒ. P gives benzene, while Q gives butane
ⓓ. P gives toluene, while Q gives benzene
413. An aryl halide containing six carbon atoms is coupled by the Wurtz-Fittig reaction with a three-carbon alkyl halide. The intended alkylbenzene product contains:
ⓐ. six carbon atoms
ⓑ. twelve carbon atoms
ⓒ. nine carbon atoms
ⓓ. three carbon atoms
414. Which equation correctly represents the formation of a Grignard reagent from an alkyl halide?
ⓐ. \(\mathrm{R-X+2Na\xrightarrow{dry\ ether}R-R+2NaX}\)
ⓑ. \(\mathrm{R-X+Mg\xrightarrow{dry\ ether}R-MgX}\)
ⓒ. \(\mathrm{R-X+KOH_{(aq)}\rightarrow R-OH+KX}\)
ⓓ. \(\mathrm{R-X+H_2\rightarrow R-H+HX}\)
415. Assertion: All apparatus used for preparing a Grignard reagent should be thoroughly dry. Reason: Water protonates the carbon bonded to magnesium and converts the Grignard reagent into a hydrocarbon.
ⓐ. 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
416. Assess the following features of Grignard-reagent formation.
RowFeatureDescription
POrganic halideProvides the carbon group and halogen
QMagnesiumBecomes inserted into the carbon–halogen linkage
RDry etherProvides a non-protic coordinating medium
SMoistureDestroys the organomagnesium reagent
The appropriate evaluation is:
ⓐ. only P and Q are correct
ⓑ. only Q, R, and S are correct
ⓒ. P, Q, R, and S are correct
ⓓ. only P, R, and S are correct
417. A student states, “The carbon atom of \(\mathrm{R-MgX}\) is electrophilic because it is bonded to a metal.” The best correction is:
ⓐ. the carbon is neutral and never participates in bond formation
ⓑ. the carbon behaves as a radical because magnesium removes one electron
ⓒ. the carbon is positively charged and accepts electron pairs
ⓓ. the \(\mathrm{C-Mg}\) bond polarises carbon nucleophilically
418. A student attempts to prepare ethylmagnesium bromide using freshly distilled bromoethane but a flask that was rinsed with water and not dried. The most likely outcome is:
ⓐ. much of the Grignard reagent is converted into ethane
ⓑ. ethylmagnesium bromide is converted selectively into butane
ⓒ. bromoethane forms ethanol without consuming magnesium
ⓓ. water acts only as an inert solvent
419. Methylmagnesium bromide reacts with water to form:
ⓐ. methanol
ⓑ. methane
ⓒ. ethane
ⓓ. methanoic acid
420. A reaction mixture intended to contain propylmagnesium bromide is accidentally exposed to moist air. Analysis later detects propane and very little organomagnesium compound. The observation is best explained by:
ⓐ. moisture protonated the propyl group
ⓑ. Wurtz coupling of two propyl groups by oxygen
ⓒ. oxidation of propane into the Grignard reagent
ⓓ. substitution of bromide by atmospheric nitrogen
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