CHEMISTRY:CENTRAL SCIENCE-W/MOD.ACCESS
CHEMISTRY:CENTRAL SCIENCE-W/MOD.ACCESS
14th Edition
ISBN: 9780134809694
Author: Brown
Publisher: PEARSON
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Chapter 13, Problem 1DE
Interpretation Introduction

Interpretation: The experimental procedure to test the hypothesis that solute blocking of solvent vaporization is not the reason that solutions have lower vapor pressures than the pure solvents is to be determined.

Concept introduction: According to Raoult’s law, the vapor pressure of a solution is equal to the product of the mole fraction and the vapor pressure of the pure solvent.
The expression of Raoult’s law is,

    Psolution=xsolventPsolvent

Expert Solution & Answer
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Answer to Problem 1DE

Solution: The interaction between solute and solvent and the number of solute particles are responsible for the lower vapor pressures of the solution than the pure solvents.

Explanation of Solution

According to Raoult’s law, the vapor pressure of a solution is equal to the product of the mole fraction and the vapor pressure of the pure solvent.
The expression of Raoult’s law is,

    Psolution=xsolventPsolvent

When a solute is added to a solution, the vapor pressure of the solution decreases because on addition of solute, the gap between the solvent molecules gets filled. Hence, on the surface of solution, the number of solvent molecule is less as compared to the pure solvent. This indicates that the number of solvent molecule enter into the gas phase is less and due to this there is a decrease in vapor pressure.
Using the Raoult’s law, the lowering of vapor pressure can be explained.
Assume two sealed containers, one is for pure solvent and other is for solution. The equilibrium stage arises when the number of molecules striking on the surface of the molecule becomes equal to the number of molecules going to the gas phase. On addition of solute, half of the surface of the solution is occupied by the solute and half of the surface is occupied by solvent molecules.

CHEMISTRY:CENTRAL SCIENCE-W/MOD.ACCESS, Chapter 13, Problem 1DE

Figure 1

The vapor pressure of the solution depends upon the number of solvent molecule present on the surface of the solution. As the number of solute molecule increases, the number of solvent molecule present on the surface of solution decreases, now lesser number of solvent molecules is present to go in gas phase. Hence, the vapor pressure of the solution decreases.

The attraction between molecules of solvent with solute also plays an important role in lowering the vapor pressure. If there is a strong attraction between the solute and solvent, than the solvent molecule try to remain in the solution rather than escaping from it. Due to this, lowering of vapor pressure occurs because now there are less number of solvent molecule in vapor phase.

Another important factor is that, number of molecules present in the solution is not important rather than this number of solute particles present in the solution is important.
More the number of solute particles, low will be the vapor pressure.

Conclusion

The interaction between solute and solvent and the number of solute particles are responsible for the lower vapor pressures of the solution than the pure solvents.

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Chapter 13 Solutions

CHEMISTRY:CENTRAL SCIENCE-W/MOD.ACCESS

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