(A) The relative lowering in vapour pressure is given by the formula: $\frac{P^0 - P_s}{P^0} = \frac{n_2}{n_1 + n_2}$.Here,the number of moles of gluc

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(A) The relative lowering in vapour pressure is given by the formula: $\frac{P^0 - P_s}{P^0} = \frac{n_2}{n_1 + n_2}$.Here,the number of moles of glucose $(n_2) = \frac{18 \ g}{180 \ g/mol} = 0.1 \ mol$.The number of moles of water $(n_1) = \frac{90 \ g}{18 \ g/mol} = 5 \ mol$.Since $n_2 Thus,the relative lowering in vapour pressure is $0.02$.

Class 12 Chemistry Solutions Lowering of vapour pressure

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An aqueous solution of glucose was prepared by dissolving $18 \ g$ of glucose in $90 \ g$ of water. The relative lowering in vapour pressure is

A
$0.02$
B
$1$
C
$20$
D
$180$

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Lowering of vapour pressure

Mass of Urea $(NH_2CONH_2)$ required to be dissolved in $1000 \ g$ of water to reduce the vapour pressure of water by $25 \ \%$ is $...... \ g$. (Nearest integer) Given: Molar mass of $N, C, O$ and $H$ are $14, 12, 16$ and $1 \ g \ mol^{-1}$ respectively.

MediumJEE MAIN 2023

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The vapour pressure of a given liquid decreases if?

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$A$ solution contains a $1:4$ molar ratio of pentane and hexane. At $20^{\circ}C$,the vapor pressure of pure pentane is $440 \ mm \ Hg$ and that of hexane is $120 \ mm \ Hg$. What is the mole fraction of pentane in the vapor phase?

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The weight in grams of a non-volatile solute (mol. wt. $60$) to be dissolved in $90 \ g$ of water to produce a relative lowering of vapour pressure of $0.02$ is

EasyTS EAMCET 2012

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Calculate the mass of a non-volatile solute (molar mass $40 \, g \, mol^{-1}$) which should be dissolved in $114 \, g$ octane to reduce its vapour pressure to $80 \%$.

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An aqueous solution of glucose was prepared by dissolving $18 \ g$ of glucose in $90 \ g$ of water. The relative lowering in vapour pressure is

Similar Questions

Mass of Urea $(NH_2CONH_2)$ required to be dissolved in $1000 \ g$ of water to reduce the vapour pressure of water by $25 \ \%$ is $...... \ g$. (Nearest integer) Given: Molar mass of $N, C, O$ and $H$ are $14, 12, 16$ and $1 \ g \ mol^{-1}$ respectively.

The vapour pressure of a given liquid decreases if?

$A$ solution contains a $1:4$ molar ratio of pentane and hexane. At $20^{\circ}C$,the vapor pressure of pure pentane is $440 \ mm \ Hg$ and that of hexane is $120 \ mm \ Hg$. What is the mole fraction of pentane in the vapor phase?

The weight in grams of a non-volatile solute (mol. wt. $60$) to be dissolved in $90 \ g$ of water to produce a relative lowering of vapour pressure of $0.02$ is

Calculate the mass of a non-volatile solute (molar mass $40 \, g \, mol^{-1}$) which should be dissolved in $114 \, g$ octane to reduce its vapour pressure to $80 \%$.

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