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Draw a suitable diagram to express the relationship for ideal solutions of `A` and `B` between vapour pressure and mole fractions of components at constant temperature

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Two liquids A and B have vapour pressure in the ratio P_A^@ : P_B^@=1:3 at a certain temperature. Assume A and B form an ideal solution and the ratio of mole fractions of A to B in the vapour phase is 4:3. Then the mole fraction of B in the solution at the same temperature is :-

At room temperature the mole fraction of a solution is 0.25 and the vapour pressure of the solvent is 0.80 atm. Then the lowering of vapour pressure is

Two liquid A and B have vapour pressure in the ratio P_A^(@) : P_B^(@) =1.3 at a certain temperature.Assume A and B from an ideal solution and the ratio of mole fractions of A to B in the vapour phase is 4 : 3, then the mole fraction of B in the solution at the same tempreature is :

Vapor pressure of a solution of Volatile components and composition of vapor: Consider a solution containing 738 g of water and 253 g of ethanol (C_(2)H_(5)OH) at 323 K . At this temperature, the vapour pressure of pure ethanol is 0.292 atm and the vapor pressure of pure water is 0.122 atm . Calculate the vapour pressure of the solution and mole fraction of every component in vapour phase. Strategy: First calculate the moles and the mole fraction of each component in the liquid solution. Then apply Raoult's law to each of the two volatile components to calculate their partial pressures. The total vapour pressure is the sum of the partial vapour pressures of the components and the mole fraction of a components in a gaseous mixture equals the ratio of its partial pressure to the total pressure.

The vapour pressures of pure liquids A and B are 400 and 600 mm Hg respectively at 298 K. On mixing the two liquids, the sum of their initial volumes is equal to the volume of the final mixture. The mole fraction of liquid B is 0.5 in the mixture. The vapour pressure of the final solution, the mole fractions of components A and B in vapour phase, respectively are :

PRADEEP-SOLUTIONS-ADDITIONAL QUESTIONS (SHORT ANSWER QUESTIONS)
  1. Show that the relative lowering of vapour pressure for a soltuion is e...

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  2. What do you understand by Relative lowering of vapour pressure ? How i...

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  3. Draw a suitable diagram to express the relationship for ideal solutio...

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  4. Non - ideal solutions exhibit either positive or negative deviations f...

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  5. Write five differences in solutions having positive deviations and sol...

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  6. Write three difference between ideal and non-ideal solutions.

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  7. What are the characteristics of an ideal solution? Why do solutions be...

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  8. Define an ideal solution and write one of its characteristics.

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  9. State Raoult's law. ? Using the law, how would you distinguish between...

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  10. Non - ideal solutions exhibit either positive or negative deviations f...

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  11. What are ideal and non-solutions? Give reason for the formation of suc...

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  12. What type of deviation (positive or negative) from ideal behaviour wil...

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  13. What are non-ideal solutions? What are their different types? Explain ...

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  14. C Cl(4) and water are immiscible whereas ethanol and water are miscibl...

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  15. State Raoult's law. Write the conditions necessary for a solution to s...

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  16. What are azeotropic mixture? What are their different types? Explain w...

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  17. State Raoult's law for a solution containing volatile liquids. Explain...

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  18. What are differences between minimum boiling azeotropes and maximum bo...

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  19. Why constant boiling mixture behave like a single component when subje...

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  20. What is meant by positive from Raoul's Law ? Give an example an exampl...

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