Assertion Diphenyl ether (Ph-O-Ph) is very less reactive in acid catalyzed hydrolysis to phenol.
Reason Oxygen is in resonance on bot side with phenyl ring.

Assertion : Phenol is acidic in nature. Reason : Hydrid for phenate ion is less resonance stabilised than hybrid for phenol.

Assertion: C_(2)H_(5)OH is a weaker base than phenol but is a stronger nucleophile than phenol. (1) Reason: In phenol the lone pair of electrons on oxygen is withdrawn towards the ring due to resonance.

Assertion : C_(2)H_(5)OH is a weaker acid than phenol but is a stronger nucleophile than phenol. Reason : In phenol, lone pair of electrons on oxygen is directed towards the ring due to resonance.

Read the passage given below and answer the following questions: Reduction of carboxylic acids and their derivatives plays an important role in organic synthesis, in both laboratory and industrial processes. Traditionally, the reduction is performed using stochiometric amounts of hydride reagents, generating stochiometric amounts of waste. A much more attractive, atom-economical approach is a catalytic reaction using H_2 , however, hydrogenation of carboxylic acid derivatives under mild conditions is a very challenging task, with amides presenting the highest challenge among all classes of carbonyl compounds. Very few examples of the important hydrogenation of amides to amines, in which the C-O bond is cleaved with the liberation of water (Scheme 1), were reported. C-O cleavage of amides can also be affected with silanes as reducing agents. We have now prepared the new, dearomatized, bipyridine-based pincer complex 3, catalyst 3(Here refered as Cat. 3). Remarkably, it efficiently catalyzes the selective hydrogenation of amides to form amines and alcohols (eq 1). The reaction proceeds under mild pressure and neutral conditions, with no additives being required. Since the reaction proceeds well under anhydrous conditions, hydrolytic cleavage of the amide is not involved in this process. (Balaraman, E., Gnanaprakasam, B., Shimon, L. J., & Milstein, D. (2010). Direct hydrogenation of amides to alcohols and amines under mild conditions. Journal of the American Chemical Society, 132(47), 16756-16758.) In the following questions, a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices on the basis of the above passage. Assertion: N-methyl ethanamide on reaction with catalyst 3 will yield ethanol and methanamine. Reason: Use of Catalyst 3 brings about cleavage of C-N bond of amides

Assertion: Anisole undergoes eletctrophilic substitution at o- and p- positions. Reason: Anisole is less reactive than phenol towards electrohphilic substitution reactions.

Read the passage given below and answer the following questions: Aryl halides are extremely less reactive towards nucleophilic substitution reactions due to the following reasons: (i) In haloarenes, the electron pairs on halogen atom are in conjugation with u-electrons of the ring. (ii) In haloalkane, the carbon atom attached to halogen is sp^3 hybridised while in case of haloarene, the carbon atom attached to halogen is sp^2 -hybridised. In case of haloarenes/ the phenyl cation formed as a result of self-ionisation will not be stabilised by resonance. A primary alkyl halide would prefer to undergo _______

Read the passage given below and answer the following questions: Aryl halides are extremely less reactive towards nucleophilic substitution reactions due to the following reasons: (i) In haloarenes, the electron pairs on halogen atom are in conjugation with u-electrons of the ring. (ii) In haloalkane, the carbon atom attached to halogen is sp^3 hybridised while in case of haloarene, the carbon atom attached to halogen is sp^2 -hybridised. In case of haloarenes/ the phenyl cation formed as a result of self-ionisation will not be stabilised by resonance. What is A' in the following reaction ?