Haloalkanes And Haloarenes MCQs With Answers – Part 3 (Class 12 Chemistry)
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Haloalkanes and Haloarenes MCQs with Answers – Part 3 (Class 12 Chemistry)

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211. Which set contains reagents associated with the Swarts reaction?
ⓐ. \(\mathrm{NaI}\), \(\mathrm{KI}\), and dry acetone
ⓑ. \(\mathrm{PCl_3}\), \(\mathrm{PCl_5}\), and \(\mathrm{SOCl_2}\)
ⓒ. \(\mathrm{Cl_2}\), \(\mathrm{Br_2}\), and ultraviolet light
ⓓ. \(\mathrm{AgF}\), \(\mathrm{SbF_3}\), and \(\mathrm{CoF_2}\)
212. Direct fluorination of an alkane is generally avoided as a controlled laboratory method for preparing a specific alkyl fluoride because:
ⓐ. fluorination is too vigorous for controlled preparation
ⓑ. fluorine cannot form a covalent bond with carbon
ⓒ. molecular fluorine is completely inert toward hydrocarbons
ⓓ. every carbon–fluorine bond decomposes immediately
213. Which equation best represents a Swarts reaction using silver fluoride?
ⓐ. \(\mathrm{R-F+AgCl\rightarrow R-Cl+AgF}\)
ⓑ. \(\mathrm{R-Cl+NaI\rightarrow R-I+NaCl}\)
ⓒ. \(\mathrm{R-Cl+AgF\rightarrow R-F+AgCl}\)
ⓓ. \(\mathrm{R-OH+AgF\rightarrow R-H+AgOH}\)
214. A laboratory must prepare compound P, an alkyl iodide, and compound Q, an alkyl fluoride, from the corresponding alkyl bromides. The appropriate methods are:
ⓐ. Swarts reaction for P and Finkelstein reaction for Q
ⓑ. radical chlorination for P and bromine addition for Q
ⓒ. thionyl chloride treatment for P and Lucas reagent for Q
ⓓ. Finkelstein reaction for P and Swarts reaction for Q
215. In the presence of anhydrous \(\mathrm{FeCl_3}\), benzene chlorination is represented by:
ⓐ. \(\mathrm{C_6H_6+Cl_2\rightarrow C_6H_6Cl_2}\)
ⓑ. \(\mathrm{C_6H_6+Cl_2\rightarrow C_6H_5Cl+HCl}\)
ⓒ. \(\mathrm{C_6H_6+HCl\rightarrow C_6H_5Cl+H_2}\)
ⓓ. \(\mathrm{C_6H_6+Cl^-\rightarrow C_6H_5Cl+H^-}\)
216. Direct chlorination of benzene gives substitution rather than stable addition mainly because:
ⓐ. deprotonation restores the aromatic pi system
ⓑ. benzene contains no pi electrons available for reaction
ⓒ. chlorine is unable to form two carbon–chlorine bonds
ⓓ. addition would increase the number of delocalised pi electrons
217. Arrange the following events in the appropriate order for electrophilic chlorination of benzene. P. The sigma complex loses a proton. Q. Benzene pi electrons attack the electrophilic chlorinating species. R. Anhydrous \(\mathrm{FeCl_3}\) activates and polarises \(\mathrm{Cl_2}\). S. Aromaticity is restored and chlorobenzene is obtained.
ⓐ. Q, R, P, S
ⓑ. R, P, Q, S
ⓒ. R, Q, P, S
ⓓ. P, R, S, Q
218. Assertion: Chlorination of benzene generally requires a Lewis acid such as anhydrous \(\mathrm{FeCl_3}\). Reason: The Lewis acid helps generate a chlorinating species strong enough to attack the aromatic pi system.
ⓐ. 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
219. A reaction-coordinate graph for benzene chlorination shows two pathways with the same reactant and product energy levels. The curve for the \(\mathrm{FeCl_3}\)-catalysed pathway has a lower maximum than the uncatalysed curve. The graph indicates that \(\mathrm{FeCl_3}\):
ⓐ. increases the enthalpy change of the reaction
ⓑ. lowers the activation energy without altering \(\Delta H\)
ⓒ. changes chlorobenzene into the thermodynamic reactant
ⓓ. raises the energy of the products above that of the uncatalysed products
220. The reagent system suitable for converting benzene into bromobenzene is:
ⓐ. \(\mathrm{HBr}\) with an organic peroxide
ⓑ. \(\mathrm{Br_2/FeBr_3}\)
ⓒ. \(\mathrm{NaBr}\) in dry acetone
ⓓ. \(\mathrm{PBr_3}\) in water
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