17 mg of a hydrocarbon (Molecular Formula: ) takes up of gas measured at and . Ozonolysis of the hydrocarbon yields certain products. The number of double bonds present in the hydrocarbon is _____.
Answer:
17 mg of a hydrocarbon (Molecular Formula: ) takes up of gas measured at and . Ozonolysis of the hydrocarbon yields certain products. The number of double bonds present in the hydrocarbon is _____.
Answer:
Correct answer:3
Standard Method
Given: Molecular formula is . Mass of hydrocarbon is . Volume of hydrogen absorbed is at and .
Find: The number of double bonds present in the hydrocarbon.
From the molecular formula, the degree of unsaturation is
This means the compound has a total unsaturation of , which can arise from double bonds and/or rings.
Now use the hydrogenation data. At STP,
So moles of hydrogen absorbed are
The solution states that ozonolysis fragments indicate three distinct double bonds in the hydrocarbon. Hence the unsaturation is due to double bonds.
Therefore, the number of double bonds present in the hydrocarbon is .
Using Unsaturation and Ozonolysis Clue
Given: and absorption of on hydrogenation.
Find: Number of bonds.
First compute unsaturation:
So the molecule has a total of units of unsaturation.
Hydrogen adds across double bonds, and the ozonolysis information in the solution confirms that these unsaturations correspond to double bonds rather than rings.
Hence all unsaturation units are double bonds.
So, the required number of double bonds is .
Using only the molecular formula and forgetting that degree of unsaturation counts both rings and double bonds. This is incomplete because unsaturation units do not automatically mean double bonds. Use the ozonolysis clue to identify that the unsaturations correspond to double bonds.
Making an STP conversion error while converting of into moles. This leads to a wrong interpretation of hydrogen uptake. Always use at STP.
Confusing hydrogen absorbed with moles of the hydrocarbon without checking stoichiometric meaning. One mole of is used per double bond during hydrogenation, so interpret the uptake in terms of bonds, not total atoms.
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