Class 12 Exam  >  Class 12 Notes  >  Vapour Pressure of Liquid Solutions

Vapour Pressure of Liquid Solutions - Class 12 PDF Download

According to Raoult’s law the partial vapour pressure of each component in the solution is directly proportional to its
  • a)
    Volume
  • b)
    Mole fraction
  • c)
    Molality
  • d)
    Density
Correct answer is option 'B'. Can you explain this answer?

Ref: https://edurev.in/question/507671/According-to-Raoults-law-the-partial-vapour-pressure-of-each-component-in-the-solution-is-directly-p

VAPOUR PRESSURE OF SOLUTIONS OF SOLIDS IN LIQUIDS

Another type of solutions is solids in liquid solution, in which we take solid as the solute and liquid as the solvent. For example, when we dissolve glucose, sugar or salt in water, we get solids in liquids type of solution. Generally, the solute is non-volatile in nature and the vapour pressure is less than the pure vapour pressure of the solution.


Why Vapour Pressure decreases when we add a non-volatile solute in the solvent?

The decrease in vapour pressure is due to:

  • As evaporation is a surface phenomenon, the more the surface, the greater the evaporation and hence more the vapour pressure. In a pure liquid, there is more surface area available for the molecules to vapourise, thereby have more vapour pressure. On the other hand, when we add a non-volatile solute, the solvent molecules get less surface to escape and hence experience low vapour pressure

  • The number of molecules evaporating or leaving the surface is much greater in pure liquid solutions to that of non-volatile solute in solvent

Vapour Pressure of Liquid Solutions - Class 12

Image 4: Pure solvent has more number of molecules on the surface as compared to non-volatile solute- solvent solution

To find out overall vapour pressure of the solid-liquid solution, we consider a solution in which lets say A is solvent and B is solute. According to Raoult’s law, we know that partial vapour pressure of individual component (solute/solvent) is directly proportional to its mole fraction.

Now, when we add a non-volatile solute, it is obvious that vapour pressure will only come from the solvent part, as they are an only available component in the vapour phase. Hence, if PA is the vapour pressure of the solvent, xA is its mole-fraction and PA0 is the vapour pressure of the pure solvent, then by Raoult’s law, the relation will come out to be:

PA ∝ xA

PA = PA0 xA

Vapour Pressure of Liquid Solutions - Class 12

Image 5: Graph between Vapour Pressure and mole fraction in case of solid in liquid solution.

When we plot a graph between mole fraction of solvent and vapour pressure, we find its nature to be linear.

The document Vapour Pressure of Liquid Solutions - Class 12 is a part of Class 12 category.
All you need of Class 12 at this link: Class 12
Download as PDF
Explore Courses for Class 12 exam
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

Extra Questions

,

Vapour Pressure of Liquid Solutions - Class 12

,

Objective type Questions

,

Exam

,

video lectures

,

Vapour Pressure of Liquid Solutions - Class 12

,

Previous Year Questions with Solutions

,

Vapour Pressure of Liquid Solutions - Class 12

,

Semester Notes

,

MCQs

,

study material

,

Free

,

past year papers

,

Important questions

,

shortcuts and tricks

,

ppt

,

practice quizzes

,

Summary

,

pdf

,

Sample Paper

,

mock tests for examination

,

Viva Questions

;