The major product of the following reaction is:
$Ph-C(=O)-CH_2CH_2-CN$
(i) $CH_{3}MgBr (excess) (ii) H_{+}H_{2}O$
$Ph-C(=O)-CH_2CH_2-CN$
(i) $CH_{3}MgBr (excess) (ii) H_{+}H_{2}O$
Show Hint
- \(Ph-CH(CH_3)-CH_2-COCH_3\)
- $Ph-C(CH_3)(OH)-CH(CH_3)_2$
- $Ph-CO-CH_2CH_2CH_3$
- $Ph-CH(CH_3)-CH_2-CN$
The Correct Option is A
Solution and Explanation
The given compound is a substituted aryl ketone with a cyano group at the terminal position. Reagent: excess CH3MgBr (a Grignard reagent) + acidic hydrolysis.
Step 1: Grignard Reaction with Ketone
- CH3MgBr adds a methyl group to the carbonyl carbon of the ketone (nucleophilic attack), forming a tertiary alcohol after hydrolysis.
Step 2: Reaction with –CN group
- Since excess Grignard reagent is used, it also reacts with the nitrile group (–CN) to give an imine intermediate, which on hydrolysis gives a ketone.
Net Result:
- The carbonyl group (initial ketone) gives a tertiary alcohol: Ph-C(OH)(CH3)-CH2-CH2-CN
- The –CN gets converted into a ketone group: -CH2-COCH3
After tautomerization or rearrangement, we obtain the product:
Ph-CH(CH3)-CH2-COCH3 — this matches option (1).
Top Questions on Organic Chemistry
Write the structures of the main products of the following reactions:
- CBSE CLASS XII - 2025
- Chemistry
- Organic Chemistry
Complete each synthesis by giving missing starting material, reagent or products:
- CBSE CLASS XII - 2025
- Chemistry
- Organic Chemistry
- Define the following: (i) Enantiomers
(ii) Racemic mixture- CBSE CLASS XII - 2025
- Chemistry
- Organic Chemistry
- Which is the correct IUPAC name for
$\text{CH}_3$- CBSE CLASS XII - 2025
- Chemistry
- Organic Chemistry
Alkyl halides undergoing nucleophilic bimolecular substitution reaction involve:
- CBSE CLASS XII - 2025
- Chemistry
- Organic Chemistry
Questions Asked in NEET exam
A full wave rectifier circuit with diodes (\(D_1\)) and (\(D_2\)) is shown in the figure. If input supply voltage \(V_{in} = 220 \sin(100 \pi t)\) volt, then at \(t = 15\) msec:
- NEET (UG) - 2025
- Semiconductor Diode
- A balloon is made of a material of surface tension S and has a small outlet. It is filled with air of density \( \rho \). Initially the balloon is a sphere of radius R. When the gas is allowed to flow out slowly at a constant rate, its radius shrinks as \( r(t) \). Assume that the pressure inside the balloon is \( P(r) \) and is more than the outside pressure (\( P_0 \)) by an amount proportional to the surface tension and inversely proportional to the radius. The balloon bursts when its radius reaches \( r_0 \). Then the speed of gas coming out of the balloon at \( r = R \) is :
- NEET (UG) - 2025
- Surface Tension
- Out of the following complex compounds, which of the compound will be having the minimum conductance in solution?
- NEET (UG) - 2025
- Inorganic chemistry
- The kinetic energies of two similar cars A and B are 100 J and 225 J respectively. On applying brakes, car A stops after 1000 m and car B stops after 1500 m. If \(F_A\) and \(F_B\) are the forces applied by the brakes on cars A and B, respectively, then the ratio \( \frac{F_A}{F_B} \) is:
- NEET (UG) - 2025
- Work and Kinetic Energy
- A 2 amp current is flowing through two different small circular copper coils having radii ratio 1:2. The ratio of their respective magnetic moments will be:
- NEET (UG) - 2025
- Magnetic moment