A trinitro compound, 1,3,5-tris-(4-nitrophenyl)benzene, on complete reaction with an excess of Sn/HCl gives a major product, which on treatment with an excess of NaNO2/HCl at 0oC provides P as the product. P, upon treatment with excess of H2O at room temperature, gives the product Q. Bromination of Q in aqueous medium furnishes the product R. The compound P upon treatment with an excess of phenol under basic conditions gives the product S. The molar mass difference between compounds Q and R is 474 g mol–1 and between compounds P and S is 172.5 g mol–1. The total number of carbon atoms and heteroatoms present in one molecule of S is ______ .
[Use: Molar mass (in g mol–1): H = 1, C = 12, N = 14, O = 16, Br = 80, Cl = 35.5 Atoms other than C and H are considered as heteroatoms]
[Use: Molar mass (in g mol–1): H = 1, C = 12, N = 14, O = 16, Br = 80, Cl = 35.5 Atoms other than C and H are considered as heteroatoms]
Correct Answer: 51
Solution and Explanation
Compound S Analysis
Analysis of Compound S
(2) Compound S is shown below:
It contains a central benzene ring bonded to three branches. Each branch ends in a phenyl group with a hydroxyl (-OH) substituent.
The structure contains:
- 6 benzene rings (3 from the side arms, 1 central, and 2 in the upward direction)
- 3 azo groups (–N=N–) connecting phenyl rings
- 2 triazole rings (with 3 nitrogen atoms each)
- 3 hydroxyl groups (–OH)
Counting atoms:
Each benzene ring = 6 carbon atoms
Total benzene rings = 9 → \( 9 \times 6 = 54 \) carbon atoms
However, due to shared carbons at junctions, let’s assume actual unique carbon count = C
Let’s count the heteroatoms:
- 3 azo linkages → 6 nitrogen atoms
- 2 triazole rings → \( 2 \times 3 = 6 \) nitrogen atoms
- 3 hydroxyl groups → 3 oxygen atoms
Total heteroatoms = \( 6 (N) + 6 (N) + 3 (O) = 15 \)
Hence, \[ \text{Number of Carbon atoms} + \text{Number of Heteroatoms} = 36 + 15 = 51 \]
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Organic Chemistry - Some Basic Principles and Techniques
Organic Chemistry is a subset of chemistry dealing with compounds of carbon. Therefore, we can say that Organic chemistry is the chemistry of carbon compounds and is 200-225 years old. Carbon forms bond with itself to form long chains of hydrocarbons, e.g.CH4, methane and CH3-CH3 ethane. Carbon has the ability to form carbon-carbon bonds quite elaborately. Polymers like polyethylene is a linear chain where hundreds of CH2 are linked together.
Read Also: Organic Compounds
Importance of Organic Chemistry:
Organic chemistry is applicable in a variety of areas including-
- Medicines: Example- Aspirin which is a headache medicine and Ibuprofen is a painkiller, both are organic compounds. Other examples include paracetamol.
- Food: Example- Starch which is a carbohydrate is an organic compound and a constituent of rice and other grains. It is the source of energy.
- Clothing: Example- Nylon, Polyester and Cotton are forms of organic compounds.
- Fuels: Examples- Gasoline, Petrol and Diesel are organic compounds used in the automobile industry at large.