Ideal solution composition of A and B liquids at 80°C is 100 (for A) and 600 (for B) mmHg, respectively. (a) Construct the P-x phase diagram by calculating the compositions of the liquid and vapor phases. (b) 1.0 mole of solution with ZB= 0.60 at 80°C is in an open container and is evaporated until the total vapor pressure decreases by 20%. Calculate the number of moles of the liquid and vapor phases using the leverage rule.
Ideal solution composition of A and B liquids at 80°C is 100 (for A) and 600 (for B) mmHg, respectively. (a) Construct the P-x phase diagram by calculating the compositions of the liquid and vapor phases. (b) 1.0 mole of solution with ZB= 0.60 at 80°C is in an open container and is evaporated until the total vapor pressure decreases by 20%. Calculate the number of moles of the liquid and vapor phases using the leverage rule.
Chemistry: Principles and Practice
3rd Edition
ISBN:9780534420123
Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Publisher:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Chapter12: Solutions
Section: Chapter Questions
Problem 12.84QE
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1. Ideal solution composition of A and B liquids at 80°C is 100 (for A) and 600 (for B) mmHg, respectively.
(a) Construct the P-x phase diagram by calculating the compositions of the liquid and vapor phases.
(b) 1.0 mole of solution with ZB= 0.60 at 80°C is in an open container and is evaporated until the total vapor pressure decreases by 20%. Calculate the number of moles of the liquid and vapor phases using the leverage rule.
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