Given: The molecular formula of X is C6H7N. On treatment with benzenesulphonyl chloride, X gives a compound Z soluble in alkali.
Find: The number of different hydrogen atoms present in Z.
The Hinsberg test is crucial: a primary amine forms an alkali-soluble sulfonamide, a secondary amine forms an alkali-insoluble sulfonamide, and a tertiary amine does not react.
From the molecular formula, X corresponds to aniline.
X=C6H5NH2
On treatment with benzenesulphonyl chloride C6H5SO2Cl, aniline undergoes the Hinsberg reaction to form sulphonamide:
Z=C6H5SO2NHC6H5
The product Z is soluble in alkali due to the presence of an acidic N−H proton, confirming that X is a primary amine.
Now count the different types of hydrogen atoms in Z:
- One type of hydrogen due to the N−H proton.
- The aromatic protons in the phenyl rings appear in four distinct chemical environments due to symmetry and substitution effects.
Total different hydrogen atoms=1+4=5
Therefore, the number of different hydrogen atoms in Z is 5. The correct option is A.