MHT CET · Chemistry · Solutions
A solution has an osmotic pressure of 'x' kPa at \(300 \mathrm{~K}\) having 1 mole of solute in \(10 \cdot 5 \mathrm{~m}^{3}\) of solution. If it's osmotic pressure is reduced to \(\left(\frac{1}{10}\right)^{\text {th }}\) of it's initial value, what is the new volume of solution?
- A \(30 \mathrm{~m}^{3}\)
- B \(105 \mathrm{~m}^{3}\)
- C \(110 \mathrm{~m}^{3}\)
- D \(11.0 \mathrm{~m}^{3}\)
Answer & Solution
Correct Answer
(B) \(105 \mathrm{~m}^{3}\)
Step-by-step Solution
Detailed explanation
\(\pi=\mathrm{X} \mathrm{kPa}, \mathrm{V}=10.5 \mathrm{~m}^{3}, \pi^{\prime}=\frac{\mathrm{X}}{10} \mathrm{kPa}, \mathrm{V}^{\prime}=? \)
\( \pi=\frac{\mathrm{n}}{\mathrm{v}} \mathrm{RT}\)
i. \(X=\frac{1}{10.5} \times 8.314 \times 300\);
ii. \(\frac{X}{10}=\frac{1}{V^{\prime}} \times 8.314 \times 300\)
By dividing equation (i) by (ii)
\(\frac{X}{X / 10} =\frac{\frac{1}{10.5} \times 8.314 \times 300}{\frac{1}{1 / V^{\prime} \times 8.314 \times 300}} \)
\( 10 =\frac{V^{\prime}}{10.5} \therefore V^{\prime}=105 \mathrm{~m}^{3}\)
\( \pi=\frac{\mathrm{n}}{\mathrm{v}} \mathrm{RT}\)
i. \(X=\frac{1}{10.5} \times 8.314 \times 300\);
ii. \(\frac{X}{10}=\frac{1}{V^{\prime}} \times 8.314 \times 300\)
By dividing equation (i) by (ii)
\(\frac{X}{X / 10} =\frac{\frac{1}{10.5} \times 8.314 \times 300}{\frac{1}{1 / V^{\prime} \times 8.314 \times 300}} \)
\( 10 =\frac{V^{\prime}}{10.5} \therefore V^{\prime}=105 \mathrm{~m}^{3}\)
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