Haloalkanes & Haloarenes; Alcohols, Phenols and Ethers
Class XII (35 MCQs)
1. The boiling point of alcohols is higher than that of hydrocarbons and ethers of comparable molecular mass due to: (a) Dipole-dipole interactions (b) Van der Waals forces (c) Intermolecular hydrogen bonding (d) Covalent bonding
2. Which of the following compounds has the highest boiling point? (a) n-Butanol (b) Isobutanol (c) Tert-butanol (d) All have the same boiling point
3. Phenol is also known as: (a) Ethyl alcohol (b) Carbolic acid (c) Methanol (d) Acetic acid
4. Which of the following is the most acidic compound? (a) Ethanol (b) Water (c) Phenol (d) Methanol
5. The reaction of a Grignard reagent with methanal followed by hydrolysis produces a:
(a) Primary alcohol (b) Secondary alcohol (c) Tertiary alcohol (d) Aldehyde
6. The reaction of a Grignard reagent with any aldehyde (other than methanal) followed by hydrolysis produces a: (a) Primary alcohol (b) Secondary alcohol (c) Tertiary alcohol (d) Ketone
7. Phenol can be prepared from chlorobenzene by fusing it with NaOH at 623 K and 320 atm pressure. This is known as: (a) Reimer-Tiemann reaction (b) Kolbe’s reaction (c) Dow’s process (d) Wurtz reaction
8. Cumene is a commercial source for the preparation of: (a) Benzene (b) Toluene (c) Phenol (d) Aniline
9. Kolbe’s reaction is used for the synthesis of: (a) Aspirin (b) Salicylic acid (c) Salicylaldehyde (d) Benzoquinone
10. The Williamson’s synthesis is an ideal method for the preparation of: (a) Symmetric ethers (b) Asymmetric ethers (c) Both (a) and (b) (d) Alcohols
11. Which of the following reagents is used to distinguish between a primary and a tertiary alcohol? (a) Lucas reagent (b) Tollens’ reagent (c) Fehling’s solution (d) Sodium metal
12. O-Nitrophenol is steam volatile while p-nitrophenol is less volatile because: (a) O-Nitrophenol has intermolecular H-bonding. (b) P-Nitrophenol has intramolecular H-bonding. (c) O-Nitrophenol has intramolecular H-bonding. (d) P-Nitrophenol has a lower molecular mass.
13. The product of Reimer-Tiemann reaction is: (a) Salicylic acid (b) Salicylaldehyde (c) Benzene (d) Picric acid
14. The reaction of ethanol with SOCl2 in the presence of pyridine is an excellent method for the preparation of chloroethane because: (a) Both products, HCl and SO2, are gases and escape easily. (b) The reaction proceeds via an SN1 mechanism. (c) The reaction is exothermic. (d) Pyridine acts as a catalyst.
15. Which of the following has the highest boiling point? (a) CH3F (b) CH3Cl (c) CH3Br (d) CH3I
16. The inversion of configuration in an SN2 reaction is known as: (a) Racemization (b) Walden inversion (c) Dehydrohalogenation (d) Rearrangement
17. SN1 reactions are favored by: (a) Polar protic solvents (b) Polar aprotic solvents (c) Non-polar solvents (d) Both (b) and (c)
18. The reaction of an alkyl halide with silver cyanide (AgCN) gives: (a) Alkyl cyanide (b) Alkyl isocyanide (c) Alcohol (d) Alkene
19. The elimination reaction that follows Saytzeff’s rule gives: (a) The more substituted alkene (b) The less substituted alkene (c) An alcohol (d) A halide
20. The Sandmeyer reaction is used to prepare aryl halides from: (a) Phenols (b) Aniline (c) Diazonium salts (d) Toluene
21. Vinyl halides are unreactive towards nucleophilic substitution reactions because of: (a) sp2 hybridisation of the carbon atom (b) Resonance stabilisation (c) Partial double bond character of the C-X bond (d) All of the above
22. Chlorobenzene on treatment with Cl2/FeCl3 gives: (a) o-dichlorobenzene (b) p-dichlorobenzene (c) Both (a) and (b) (d) Benzene
23. What is the product of the reaction of chlorobenzene with CH3Cl in the presence of anhydrous AlCl3? (a) Toluene (b) Chlorotoluene (c) o- and p-Chlorotoluene (d) Benzene
24. The difficulty of nucleophilic substitution in haloarenes is due to: (a) Resonance effect (b) sp2 hybridisation of carbon atom (c) Instability of phenyl cation (d) All of the above
25. A racemic mixture is an equimolar mixture of: (a) Enantiomers (b) Diastereomers (c) Meso compounds (d) Alcohols and ethers
26. The presence of an electron-withdrawing group like −NO2 at the ortho and para positions of a haloarene: (a) Deactivates the benzene ring (b) Facilitates nucleophilic substitution (c) Increases the stability of the aryl cation (d) Decreases the boiling point
27. The reaction of an aryl halide with sodium in the presence of an alkyl halide and dry ether is known as: (a) Wurtz reaction (b) Fittig reaction (c) Wurtz-Fittig reaction (d) Friedel-Crafts reaction
28. The major product formed when 3-methylbutan-2-ol is heated with concentrated H2SO4 is: (a) 3-Methylbut-1-ene (b) 2-Methylbut-1-ene (c) 2-Methylbut-2-ene (d) 3-Methylbutan-2-ene
29. The reaction of anisole with a mixture of concentrated HNO3 and H2SO4 yields: (a) o-Nitroanisole (b) p-Nitroanisole (c) Both (a) and (b) in equal amounts (d) o- and p-Nitroanisole with the para isomer as the major product
30. Which of the following is the most acidic? (a) p-Nitrophenol (b) m-Nitrophenol (c) o-Nitrophenol (d) Phenol
31. Which of the following compounds will give a yellow precipitate with I2 and NaOH? (a) Propan-1-ol (b) Propan-2-ol (c) Butan-1-ol (d) Butan-2-ol
32. The compound that will react with Lucas reagent most rapidly is: (a) 1-butanol (b) 2-butanol (c) 2-methyl-2-propanol (d) Ethanol
33. The reaction of diethyl ether with excess concentrated HI at high temperature gives: (a) Ethanol (b) Ethyl iodide (c) Ethanol and ethyl iodide (d) Ethene
34. The product of the reaction of phenol with CHCl3 and NaOH followed by hydrolysis is: (a) Salicylic acid (b) Salicylaldehyde (c) Phenolphthalein (d) Aspirin
35. The major product of the reaction of 2-bromobutane with alcoholic KOH is: (a) But-1-ene (b) But-2-ene (c) Butan-1-ol (d) Butan-2-ol
Answer Key
| Question | Correct Option |
| 1. | (c) Intermolecular hydrogen bonding |
| 2. | (a) n-Butanol |
| 3. | (b) Carbolic acid |
| 4. | (c) Phenol |
| 5. | (a) Primary alcohol |
| 6. | (b) Secondary alcohol |
| 7. | (c) Dow’s process |
| 8. | (c) Phenol |
| 9. | (b) Salicylic acid |
| 10. | (c) Both (a) and (b) |
| 11. | (a) Lucas reagent |
| 12. | (c) O-Nitrophenol has intramolecular H-bonding. |
| 13. | (b) Salicylaldehyde |
| 14. | (a) Both products, HCl and SO2, are gases and escape easily. |
| 15. | (d) CH3I |
| 16. | (b) Walden inversion |
| 17. | (a) Polar protic solvents |
| 18. | (b) Alkyl isocyanide |
| 19. | (a) The more substituted alkene |
| 20. | (c) Diazonium salts |
| 21. | (d) All of the above |
| 22. | (c) Both (a) and (b) |
| 23. | (c) o- and p-Chlorotoluene |
| 24. | (d) All of the above |
| 25. | (a) Enantiomers |
| 26. | (b) Facilitates nucleophilic substitution |
| 27. | (c) Wurtz-Fittig reaction |
| 28. | (c) 2-Methylbut-2-ene |
| 29. | (d) o- and p-Nitroanisole with the para isomer as the major product |
| 30. | (a) p-Nitrophenol |
| 31. | (b) Propan-2-ol |
| 32. | (c) 2-methyl-2-propanol |
| 33. | (b) Ethyl iodide |
| 34. | (b) Salicylaldehyde |
| 35. | (b) But-2-ene |