vapour pressure over the solution of two liquids 1 and 2 at a particular temperature varies linearly with the mole fraction of a component
Answers
Answer:
Roult Law: For a solution of volatile liquids, the partial vapor pressure of each component of the solution is directly proportional to its mole fraction present in the solution. ... Total vapor pressure over the solution varies linearly with the mole fraction of component 2.
Answer:
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Explanation:
Total vapour pressure over the solution can be related to the mole fractions of any one component. Total vapour pressure over the solution varies linearly with the mole fraction of component 2. Therefore, depending on the vapour pressures of the pure components 1 and 2, total vapour pressure over the solution decreases or increases with the increase of the mole fraction of component 1. It is clearly explained by the plot given below.
The above plot shows that the plot of p1 or p2 verses the mole fractions x1 & x2 for a solution is linear hence p1 & p2 are directly proportional to x1 & x2 respectively. In Figure, the dashed lines I & II represent the partial pressures of components, while the marked Line III represents the total vapour pressure of the solution.