Assertion : If one component of a soluti...

Assertion : If one component of a solution obeys Raoult’s law over a certain range of composition, the other component will not obey Henry’s law in that range.
Reason , Reoult' s law is a special case of Henry' s law.

A

Statement-1 is True, Statement-2 is True, Statement -2 is correct explanation for Statement -1

B

Statement-1 is True, Statement-2 is True, Statement-2 is NOT a correct explanation for Statement-1

C

Statement-1 is True, Statement-2 is False

D

Statement-1 is False, Statement-2 is True

Text Solution

Verified by Experts

Henry’s law is for gas in liquid and Raoult’s law is for liquid in liquid.

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Statement - If one component obeyed Raoult's law over a certain range of composition, the other component would not obey Henry's law in that range. Explanation - Raoult's law is a special case of Henry's law.

A solution that obeys Raoult’s law is:

Knowledge Check

Boyle.s Law is

A

`P_1V_1=P_2V_2`

B

`P_2V_1=P_1V_2`

C

`V_1/T_1=V_2/T_2`

D

`V_1T_1=V_2T_2`

What are the conditions for an ideal solution which obeys Raoult's law over the entire range of concentration ?

A

`Delta_"mix"H=0, Delta_"mix"V=0, P_"Total"=p_A^(@)x_A+p_B^(@)x_B`

B

`Delta_"mix"H=+ve, Delta_"mix"V=0, P_"Total"=p_A^(@)x_A+p_B^(@)x_B`

C

`Delta_"mix"H=0, Delta_"mix"V=+ve, P_"Total"=p_A^(@)x_A+p_B^(@)x_B`

D

`Delta_"mix"H=0, Delta_"mix"V=0, P_"Total"=p_B^(@)x_B`

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One component of a solution follows Raoult's over the entire range 0lex_(1)le1. The second component must follow Raoult's law in the range when x_(2) is

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In which of these solutions Raoult’s law is not applicable?

A solution containing components A and B follows Raoult's law, when

State Raoult's law for a binary solution containing volatile components.

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