MHT CET · Chemistry · Solutions
In a solution, mole fraction of solute is 0.2 , when lowering in vapour pressure is 10 mm Hg . To get lowering of vapour pressure of 20 mm Hg , mole fraction of solute in solution is
- A 0.2
- B 0.4
- C 0.6
- D 0.8
Answer & Solution
Correct Answer
(B) 0.4
Step-by-step Solution
Detailed explanation
Lowering in
vapour
pressure
\((\Delta \mathrm{P}) \propto\) mole fraction of solute \((\mathrm{x})\).
\(\begin{array}{ll}
\therefore & \frac{\Delta \mathrm{P}_1}{\mathrm{x}_1}=\frac{\Delta \mathrm{P}_2}{\mathrm{x}_2} \\
\therefore & \frac{10}{0.2}=\frac{20}{\mathrm{x}_2} \\
\therefore & \mathrm{x}_2=\frac{20}{10} \times 0.2=0.4
\end{array}\)
\(\therefore \quad\) Mole fraction of solute will be 0.4
vapour
pressure
\((\Delta \mathrm{P}) \propto\) mole fraction of solute \((\mathrm{x})\).
\(\begin{array}{ll}
\therefore & \frac{\Delta \mathrm{P}_1}{\mathrm{x}_1}=\frac{\Delta \mathrm{P}_2}{\mathrm{x}_2} \\
\therefore & \frac{10}{0.2}=\frac{20}{\mathrm{x}_2} \\
\therefore & \mathrm{x}_2=\frac{20}{10} \times 0.2=0.4
\end{array}\)
\(\therefore \quad\) Mole fraction of solute will be 0.4
See the Complete Solution
Get step-by-step explanations for this and 2.5 Lakh+ more JEE, NEET & CET questions.
- Unlock all solutions
- Practice the full chapter
- Track accuracy across PYQs
4.8 rated on Google Play · 14,000+ reviews
More questions from Chemistry
- Identify the product \(X\) obtained in following reaction \(\mathrm{CH}_{3}-\left(\mathrm{CH}_{2}\right)_{4}-\mathrm{CH}_{3} \quad \frac{\mathrm{Cr}_{2} \mathrm{O}_{3}}{773 \mathrm{~K}, 10-20 \mathrm{~atm}} \mathrm{X}\)MHT CET 2020 Medium
- Which of the following symbols represent heat of reaction at constant volume?MHT CET 2024 Easy
- In \(\mathrm{PCl}_{5}\) molecule, the angle Cl-P-Cl present in a plane is equal toMHT CET 2020 Medium
- What is coordination number of central metal ion in \(\left[\mathrm{Fe}\left(\mathrm{C}_2 \mathrm{O}_4\right)_3\right]^{3-}\) ?MHT CET 2023 Easy
- Identify the reagent that confirms the presence of five \(-\mathrm{OH}\) groups in glucose.MHT CET 2023 Easy
- Identify the correct increasing order of field strength of ligands form following.MHT CET 2025 Easy
More PYQs from MHT CET
- Which of the following compounds has difficulty in breaking of C-X bond?MHT CET 2025 Medium
- The string of pendulum of length ' \(L\) ' is displaced through \(90^{\circ}\) from the vertical and released. Then the maximum strength of the string in order to withstand the tension, as the pendulum passes through the mean position is ( \(\mathrm{m}=\) mass of pendulum, \(\mathrm{g}=\) acceleration due to gravity)MHT CET 2024 Easy
- In Bohr's theory of Hydrogen atom, the electron jumps from higher orbit \(n\) to lower orbit \(p\). The wavelength will be maximum for the transitionMHT CET 2016 Easy
- If the shortest distance between the lines \(\frac{x-\mathrm{k}}{2}=\frac{\mathrm{y}-4}{3}=\frac{\mathrm{z}-3}{4}\) and \(\frac{x-2}{4}=\frac{\mathrm{y}-4}{6}=\frac{\mathrm{z}-7}{8}\) is \(\frac{13}{\sqrt{29}}\), then \(\mathrm{k}=\)MHT CET 2025 Medium
- If \(\mathrm{f}(x)=\log _{x^2}(\log x)\), then at \(x=\mathrm{e}, \mathrm{f}^{\prime}(x)\) has the valueMHT CET 2024 Easy
- How much energy is imparted to an electron so that its de-Broglie wavelength
reduces from \(10^{-10} \mathrm{~m}\) to \(0 \cdot 5 \times 10^{-10} \mathrm{~m} ?(\mathrm{E}=\) energy of electron \()\)MHT CET 2020 Medium