At , a solution containing of solute in of solution exerts an osmotic pressure of . The molar mass of the solute is _____ (Nearest integer).
Given:
At , a solution containing of solute in of solution exerts an osmotic pressure of . The molar mass of the solute is _____ (Nearest integer).
Given:
Correct answer:62250
Standard Method
Given: mass of solute = , volume of solution = , osmotic pressure = , temperature = .
Find: molar mass of the solute.
Use the osmotic pressure relation:
Now substitute concentration in terms of molar mass:
Using the conversion , we get:
Solving gives:
So, the answer is 62250.
Detailed Working from Extracted Solution
Given: osmotic pressure formula, mass of solute, volume of solution, and temperature.
Find: molar mass of the solute.
The osmotic pressure of a solution is given by:
where is the molarity of the solution.
Molarity is:
Convert volume:
Let the molar mass be . Then:
Hence,
Now apply:
The extracted detailed solution also states after simplifying:
but then concludes, "Therefore, the molar mass of the solute is , i.e., 62250." This is internally inconsistent. Since the solution prominently lists Correct Answer: 62250 and the first approach also concludes , the extracted source supports the final answer as 62250, while noting a discrepancy in the second approach.
Using directly with in is incorrect because the pressure unit must be converted consistently. Convert to first.
Forgetting to convert into gives the wrong molarity. Always express volume in liters when using molarity in .
Confusing molarity with moles is incorrect because osmotic pressure uses concentration, not just amount of solute. First write moles as , then divide by volume.
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