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Question 12.3.1: Calculation of the Freezing-Point Depression of Water Determ...

Calculation of the Freezing-Point Depression of Water

Determine the freezing-point depression of water as a result of the addition of 0.01 g / cm ^{3} of (a) methanol and (b) a protein whose molecular weight is 60 000.

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Since such a small amount of solute is involved, we will assume that the density of the solution is the same as that of pure water, 1 g / cm ^{3}. Thus the solute mole fraction is

 

\begin{aligned}x_{\text {solute }} &=\frac{\text { Moles of solute in } 1 cm ^{3} \text { of solution }}{(\text { Moles of solute }+\text { moles of water }) \text { in } 1 cm ^{3} \text { of solution }} \\&=\frac{\frac{0.01}{m}}{\frac{0.99}{18}+\frac{0.01}{m}}\end{aligned}

 

where m is the molecular weight of the solute. \Delta_{\text {fus }} \underline{H}\left(T_{m}\right) for water is 6025 J/mol.

 

a. The molecular weight of methanol is 32. Thus, x_{\text {solute }}=0.00565 and

 

\Delta T=\frac{8.314 \frac{ J }{ mol K } \times(273.15 K )^{2} \times 5.65 \times 10^{-3}}{6025 J / mol }=0.58 K

 

b. The molecular weight of the protein is 60 000, so x_{\text {solute }} \sim 3 \times 10^{-6} and

 

\Delta T=\frac{8.314 \frac{ J }{ mol K } \times(273.15 K )^{2} \times 3 \times 10^{-6}}{6025 J / mol }=3.1 \times 10^{-4} K

 

This small depression of the freezing point is barely measurable. Compare this result with the osmotic pressure difference found in Illustration 11.5.1.

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