(B) According to Raoult's Law,the vapour pressure of a solution is given by $P = P^o \times X_{solvent}$.At $373 \ K$ (boiling point of water),the vap

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(B) According to Raoult's Law,the vapour pressure of a solution is given by $P = P^o \times X_{solvent}$.At $373 \ K$ (boiling point of water),the vapour pressure of pure water $(P^o)$ is $760 \ mm \ Hg$.Given,$P = 750 \ mm \ Hg$.Substituting the values in the equation:$750 = 760 \times X_{solvent}$$X_{solvent} = \frac{750}{760} = \frac{75}{76}$.

Class 12 Chemistry Solutions Lowering of vapour pressure

Medium

The vapour pressure of a dilute aqueous solution of glucose is $750 \ mm$ of mercury at $373 \ K$. The mole fraction of solvent is

A
$\frac{1}{10}$
B
$\frac{75}{76}$
C
$\frac{1}{76}$
D
$\frac{1}{760}$

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Lowering of vapour pressure

For a solution of volatile liquids,the partial vapour pressure of each component in the solution is directly proportional to:

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The graph between vapour pressure and mole fraction of the solvent for an ideal solution is:

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When a non-volatile solute is dissolved in a solvent,the relative lowering of vapour pressure is equal to

EasyIIT 1983

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$160 \ g$ of non-volatile solute '$A$' is dissolved in $54 \ mL$ of water at $373 \ K$. What is the vapour pressure of the aqueous solution of '$A$' (in $Torr$)? (Given: molecular weight of '$A$' = $160 \ g \ mol^{-1}$)

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Relative lowering in vapour pressure of a solution containing a non-volatile solute is the ratio of:

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The vapour pressure of a dilute aqueous solution of glucose is $750 \ mm$ of mercury at $373 \ K$. The mole fraction of solvent is

Similar Questions

For a solution of volatile liquids,the partial vapour pressure of each component in the solution is directly proportional to:

The graph between vapour pressure and mole fraction of the solvent for an ideal solution is:

When a non-volatile solute is dissolved in a solvent,the relative lowering of vapour pressure is equal to

$160 \ g$ of non-volatile solute '$A$' is dissolved in $54 \ mL$ of water at $373 \ K$. What is the vapour pressure of the aqueous solution of '$A$' (in $Torr$)? (Given: molecular weight of '$A$' = $160 \ g \ mol^{-1}$)

Relative lowering in vapour pressure of a solution containing a non-volatile solute is the ratio of:

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