(D) Given: $w_2 = 1.00 \text{ g}$,$w_1 = 50 \text{ g}$,$\Delta T_f = 0.40 \text{ K}$,$K_f = 5.12 \text{ K kg mol}^{-1}$.Using the formula: $\Delta T_f

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(D) Given: $w_2 = 1.00 \text{ g}$,$w_1 = 50 \text{ g}$,$\Delta T_f = 0.40 \text{ K}$,$K_f = 5.12 \text{ K kg mol}^{-1}$.Using the formula: $\Delta T_f = \frac{K_f \times w_2 \times 1000}{M_2 \times w_1}$Rearranging for $M_2$: $M_2 = \frac{K_f \times w_2 \times 1000}{\Delta T_f \times w_1}$Substituting the values: $M_2 = \frac{5.12 \times 1.00 \times 1000}{0.40 \times 50}$$M_2 = \frac{5120}{20} = 256 \text{ g mol}^{-1}$.

Class 12 Chemistry Solutions Depression of freezing point of the solvent

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$1.00 \text{ g}$ of a non-electrolyte solute dissolved in $50 \text{ g}$ of benzene lowered the freezing point of benzene by $0.40 \text{ K}$. The freezing point depression constant of benzene is $5.12 \text{ K kg mol}^{-1}$. Find the molar mass of the solute.

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A
$280 \text{ g mol}^{-1}$
B
$356 \text{ g mol}^{-1}$
C
$562 \text{ g mol}^{-1}$
D
$256 \text{ g mol}^{-1}$

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Depression of freezing point of the solvent

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$6 \ g$ of a non-volatile,non-electrolyte $X$ dissolved in $100 \ g$ of water freezes at $-0.93^{\circ} C$. The molar mass of $X$ in $g \ mol^{-1}$ is ($K_f$ of $H_2O = 1.86 \ K \ kg \ mol^{-1}$)

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Camphor is used in the determination of molecular mass because $....$

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During the freezing of a solution at its freezing point,which of the following equilibria exists?

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Give the formula which shows the relation between the freezing point and the fusion enthalpy of a solvent.

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$1.00 \text{ g}$ of a non-electrolyte solute dissolved in $50 \text{ g}$ of benzene lowered the freezing point of benzene by $0.40 \text{ K}$. The freezing point depression constant of benzene is $5.12 \text{ K kg mol}^{-1}$. Find the molar mass of the solute.

Similar Questions

$6 \ g$ of a non-volatile,non-electrolyte $X$ dissolved in $100 \ g$ of water freezes at $-0.93^{\circ} C$. The molar mass of $X$ in $g \ mol^{-1}$ is ($K_f$ of $H_2O = 1.86 \ K \ kg \ mol^{-1}$)

$K_f$ for water is $1.86 \, K \, kg \, mol^{-1}$. If your automobile radiator holds $1.0 \, kg$ of water,how many $gm$ of ethylene glycol $(C_2H_6O_2)$ must you add to lower the freezing point of the solution to $-2.8 \, ^oC$?

Camphor is used in the determination of molecular mass because $....$

During the freezing of a solution at its freezing point,which of the following equilibria exists?

Give the formula which shows the relation between the freezing point and the fusion enthalpy of a solvent.

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