The conversion of CH3OH to CH3COOH can be brought in by:
1. K2Cr2O7/H+
2. CO + Rh
3. KMnO4
4. H3PO4
Benzaldehyde and acetaldehyde can be distinguished by:
1. iodoform test
2. 2,4 - DNP test
3. reaction
4. Wolff-Kishner's reduction
Fehling's solution is:
1. Acidified copper sulphate solution
2. Ammoniacal cuprous chloride solution
3. Copper sulphate, Rochelle salt + NaOH
4. None of the above
Which compounds will not reduce Fehling's solution?
1. Methanal
2. Ethanal
3. Trichloroethanal
4. Benzaldehyde
Acetaldehyde normally reacts with
1. only electrophiles
2. only nucleophiles
3. only free radicals
4. both electrophiles and nucleophiles
Which of the following has most acidic hydrogen?
1. 3-hexanone
2. 2,4-hexanedione
3. 2,5-hexanedione
4. 2,3-hexanedione
Which can be reduced to corresponding hydrocarbon by Zn-Hg/conc HCl?
1. Butan-2-one
2. Acetic acid
3. Acetamide
4. Ethyl acetate
Nucleophilic addition reaction will be most favoured in [2006]
1.
2.
3.
4.
The enolic form of acetone contains:
1. 9 -bonds, 1-bond and 2 lone pairs
2. 8 -bonds, 2-bonds and 2 lone pairs
3. 10 -bonds, 1-bond and 1 lone pair
4. 9 -bonds, 2-bonds and 1 lone pair
In this reaction,
CH3CHO + HCN CH3CH(OH)CN CH3CH(OH)COOH
an asymmetric compound is generated. The acid obtained would be
1. 50% D + 50% L-isomer
2. 20% D + 80% L-isomer
3. D-isomer
4. L-isomer