1. Camphor (C10H16O2) freezes at 175 °C, and it has a particularly large freezingpoint-depression constant, Kf = 40.0 °C/m. When 0.086 g of an organic substance of unknown molar mass is dissolved in 22.01 g of liquid camphor, the freezing point of the mixture is found to be 1.7 °C below of pure camphor. What is the molar mass of the solute?
Activity 3. Directions: Perform the needed calculations for the following problems
and supply the missing answer on the table below. Show your complete
calculations in a clean sheet of paper.
1. Camphor (C10H16O2) freezes at 175 °C, and it has a particularly large freezingpoint-depression constant, Kf = 40.0 °C/m. When 0.086 g of an organic substance
of unknown molar mass is dissolved in 22.01 g of liquid camphor, the freezing
point of the mixture is found to be 1.7 °C below of pure camphor. What is the molar
mass of the solute?
2. You add 0.25 g of an unknown solute to 11.1 g of benzene. The boiling point of
the benzene rises from 80.10 °C to 80.46 °C. What is the molar mass of the
compound? Kb=2.53 °C /m
3. A solution of an unknown non-dissociating solute was prepared by dissolving
0.300 g of the substance in 40.0 g of CCl4. The boiling point of the solution was
0.357 °C higher than that of the pure solvent. Calculate the molar mass of the
solute. Kb=5.02 °C/m
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