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Question 1 A and B form an ideal solution, with x_(A)=0.320 . The vapor pressure of pure A is 84.3mmHg , and that of B

Question 1\

A

and

B

form an ideal solution, with

x_(A)=0.320

.\ The vapor pressure of pure

A

is

84.3mmHg

, and that of

B

is

41.2mmHg

.\ The vapor of the above mixture is collected and then condensed into a liquid in a separate container.\ What are the partial pressures of

A

and

B

vapors after equilibrium is established above this new liquid?\

P_(A)=27mmHg,P_(B)=28mmHg

\

P_(A)=28mmHg,P_(B)=21mmHg

\

P_(A)=41mmHg,P_(B)=21mmHg

\

P_(A)=35mmHg,P_(B)=46mmHg

\

P_(A)=46mmHg,P_(B)=35mmHg
image text in transcribed
A and B form an ideal solution, with XA=0.320. The vapor pressure of pure A is 84.3mmHg, and that of B is 41.2mmHg. The vapor of the above mixture is collected and then condensed into a liquid in a separate container. What are the partial pressures of A and B vapors after equilibrium is established above this new liquid? OPA=27mmHg,PB=28mmHgPA=28mmHg,PB=21mmHgPA=41mmHg,PB=21mmHgPA=35mmHg,PB=46mmHgPA=46mmHg,PB=35mmHg

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