Statement-I: Unlike the `gtC=O` group of aldehydes and ketones, the `C=O` of `R-overset(O)overset(||)C-OH` does not undergo nucleophilic addition reactions.
Because
Statement-II: Carboxylic acids exist as dimers due to intermolecular hydrogen bonding in aprotic medium.

Ketones (R-overset(O)overset("||")C-R') can be obtained in one step by (where R and R' are alkyl groups)

Statement-I: Tert-Butoxide is a stronger base than OH^(-) or C_(2)H_(5)O^(-) ion but is a much poorer nucleophile Because Statement-II: A negatively charged ions is always more powerful nucleophile than its conjugate acid.

Both carbonyl compounds and acid derivatives though they contain grouping yet the reactions given by them are entirely different. As Aldehydes and Ketones give addition product with a nucleophile, while carboxylic acid derivatives give nucleophilic acyl substitution through addition/elimination mechanism. Where X- = -Cl - O-overset(O)overset(||)C-R-OR, -NR(R) etc. Why aldeydes and Ketones give nucleophilic addition reaction while acid derivatives prefer nucleophilic acyl substititution reaction?

Aldehyde, ketone, acid and acid derivatives contain gtC=O group. Aldehyde and ketones gives nucleop addition reactions where as acid and acid derivatives gives nucleophilic addition followed by ellmination reaction Nucleophilic addition reactions followed by ellimination of acid derivatives is known as acyl substitution reacts This subsitution reaction takes places by formation of tertrahedral intermediate. Which one of the following is least reactive compound for nucleophilic acyl substitution.

Aldehyde, ketone, acid and acid derivatives contain gtC=O group. Aldehyde and ketones gives nucleop addition reactions where as acid and acid derivatives gives nucleophilic addition followed by ellmination reaction Nucleophilic addition reactions followed by ellimination of acid derivatives is known as acyl substitution reacts This subsitution reaction takes places by formation of tertrahedral intermediate. Which of the following compounds has very poor leaving group?

Aldehyde, ketone, acid and acid derivatives contain gtC=O group. Aldehyde and ketones gives nucleop addition reactions where as acid and acid derivatives gives nucleophilic addition followed by ellmination reaction Nucleophilic addition reactions followed by ellimination of acid derivatives is known as acyl substitution reacts This subsitution reaction takes places by formation of tertrahedral intermediate. For the given reaction which of these is correct?

Statement I: p-Nitrophenol is a stronger acid than o-nitrophenol. Statement II: Intramolecular hydrogen bonding makes the o-isomer weaker than p-isomer.

Statement-I: R-C-=O^(+) is more stable than R-C^(+)=O Because Statement-II: Resonance in carbonyl compound provides

Statement-I: CH_(3)COCH_(2)COOC_(2)H_(5) will give iodoform test. Because Statement-II: It contains CH_(3)overset(O)overset(||)C- group linked to a carbon atom.

In the given sequence of reaction, identify Y C_6H_5-overset(O)overset(||)(C )-CH_3 overset(SeO_2)to X underset((ii)H_2O // H^(o+))overset((i)Conc. NaOH//Delta)(rarr)Y