What amount of bromine will be required to convert of phenol into -tribromophenol? (Given molar mass in of C, H, O, Br are , , , respectively)
- A
- B
- C
- D
What amount of bromine will be required to convert of phenol into -tribromophenol? (Given molar mass in of C, H, O, Br are , , , respectively)
Correct answer:A
Standard Method
Given: mass of phenol =
Find: amount of bromine required to convert phenol into -tribromophenol.
The balanced reaction is
So, mole of phenol reacts with moles of .
Molar mass of phenol:
Molar mass of bromine:
Moles of phenol:
From stoichiometry, moles of bromine required:
Mass of bromine needed:
Therefore, the amount of bromine required is . The correct option is A.
Stepwise Stoichiometric Calculation
Given: phenol = , mass =
Find: required mass of .
First calculate the molar mass of phenol:
Now calculate moles of phenol:
Use the reaction stoichiometry:
Thus, bromine needed = times the moles of phenol.
So,
Molar mass of bromine is
Hence,
Therefore, the required bromine mass is .
Using the molar ratio as instead of is incorrect because the balanced equation shows that one mole of phenol reacts with three moles of . Always read the stoichiometric coefficients from the balanced reaction first.
Calculating the molar mass of phenol incorrectly as or leads to a wrong answer. Phenol is , so total hydrogen count is , giving molar mass .
Using atomic bromine mass directly instead of molecular bromine mass is wrong because the reacting species is . Convert moles to mass using the molar mass of the actual molecule present in the equation.
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