The vapour pressure of $30\% \left(\mathrm{w}/\mathrm{v}\right)$, aqueous solution of glucose is ________ $\mathrm{mm} \mathrm{Hg}$ at ${25}^{\circ }\mathrm{C}$.

[Given: The density of $30\% \left(\mathrm{w}/\mathrm{v}\right)$, aqueous solution of glucose is $1.2 \mathrm{g} {\mathrm{cm}}^{–3}$ and vapour pressure of pure water is $24 \mathrm{mm} \mathrm{Hg}$.]

(Molar mass of glucose is $180 \mathrm{g} {\mathrm{mol}}^{–1}$)

Benzene and toluene form an ideal solution over the entire range of composition. The vapour pressure of pure benzene and toluene at $\mathrm{T} \left(\mathrm{K}\right)$ are $50 \mathrm{mmHg}$ and $40 \mathrm{mmHg}$, respectively. What is the mole fraction of toluene in vapour phase when $117 \mathrm{g}$ of benzene is mixed with $46 \mathrm{g}$ of toluene?

(Molar mass of benzene and toluene are $78$ and $92 \mathrm{g} {\mathrm{mol}}^{-1}$, respectively)

Lowering of vapour pressure of $30\%$ of aqueous solution of glucose (in mm Hg)

Given: ${\mathrm{P}}_{{\mathrm{H}}_2\mathrm{O}}= 760 \mathrm{mm} \mathrm{of} \mathrm{Hg}$

The correct option for the value of vapour pressure of a solution at $45º\mathrm{C}$ with benzene to octane in molar ratio $3 : 2$ is:

[At $45°\mathrm{C}$ vapour pressure of benzene is $280 \mathrm{mm} \mathrm{Hg}$ and that of octane is $420 \mathrm{mm} \mathrm{Hg}.$ Assume Ideal gas]