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Question 14.15: A solution is made by dissolving 100. g of ethylene glycol (...

A solution is made by dissolving 100. g of ethylene glycol (C_2H_6O_2) in 200. g of water. What is the freezing point of this solution?

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To calculate the freezing point of the solution, we first need to calculate \Delta t_f ,the change in freezing point. Use the equation

\Delta t_f= mK_f = \frac{mol   solute}{kg   solvent} \times   K_f

K_f   (for    water):     \frac{1.86^\circ C   kg   solvent}{mol    solute}  (from Table 14.5)

mol  solute : (100.   \cancel{g   C_2H_6O_2} ) (\frac{1   mol  C_2H_6O_2}{62.07  \cancel{g   C_2H_6O_2} } )

= 1.61 mol C_2H_6O_2

kg solvent: (200.   \cancel{g}   H_2O) (\frac{1   kg}{1000  \cancel{g}} ) =0.200   kg   H_2O

\Delta t_f= (\frac{1.61   \cancel{mol   C_2H_6O_2}}{0.200   \cancel{kg    H_2O}} ) (\frac{1.86^\circ C    \cancel{kg    H_2O}}{1     \cancel{mol   C_2H_6O_2}} ) = 15.0^\circ C

The freezing point depression, 15.0°C, must be subtracted from 0°C, the freezing point of the pure solvent (water):

freezing point of solution = freezing point of solvent – \Delta t_f

=0.0°C – 15.0°C = -15.0°C

Therefore, the freezing point of the solution is -15.0°C .This solution will protect an automobile radiator down to -15.0°C (5°F).

TABLE 14.5 Freezing Point Depression and Boiling Point Elevation Constants of Selected Solvents
Solvent Freezing point of pure solvent (°C) Freezing point depression constant, K_f \frac{^\circ \text{C kg solvent}}{\text{mol solute}} Boiling point of pure solvent of pure solven (°C) Boiling point elevation constant K_b \frac{^\circ \text{C kg solvent}}{\text{mol solute}}
Water 0.00 1.86 100.0 0.512
Acetic acid 16.6 3.90 118.5 3.07
Benzene 5.5 5.1 80.1 2.53
Camphor 178 40 208.2 5.95

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