If two liquids `A(P_(A)^(@)=100` torr) and `B(P_(B)^(@)=200` torr) are completely immiscible with each other, each one will behave independently of the other, are present in a closed vessel. The total vapour pressure of the system will be:

If two liquids A ( P_A^(@) =100 torr) and ( P_B^(@) =200 torr ) which are completely immiscible with each other (each one will behave indepenently of the othere)are present in a closed vessel, the total vapour pressure of the system will be :

If two liquids A ( P_A^(@) =100 torr) and ( P_B^(@) =200 torr ) which are completely immiscible with each other (each one will behave indepenently of the othere)are present in a closed vessel, the total vapour pressure of the system will be :

If two liquids A ( P_A^(@) =100 torr) and ( P_B^(@) =200 torr ) which are completely immiscible with each other (each one will behave indepenently of the othere)are present in a closed vessel, the total vapour pressure of the system will be :

An ideal solution contains two volatile liquids A(P^(@)=100 torr) and B(P^(@)=200 torr). If mixture contain 1 mole of A and 4 mole of B then total vapour pressure of the distillate is :

An ideal solution contains two volatile liquids A(P^(@)=100 torr) and B(P^(@)=200 torr). If mixture contain 1 mole of A and 4 mole of B then total vapour pressure of the distillate is :

An ideal solution contains two volatile liquids A(P^(@)=100 torr) and B(P^(@)=200 torr). If mixture contain 1 mole of A and 4 mole of B then total vapour pressure of the distillate is :

Two moles of liquid A(P_(A)^(0)=100 torr) and 3 moles of liquid B(P_(B)^(0)=150 torr) from a solution having vapour pressure of 120 torr. Based upon this observation one can conclude:

An ideal solution contains two volalite liquids A (P^@"=100 tore") and B(P^@="200 torr" ). If liquid mixture contains 1 mole of A and 4 mole of B then total vapour pressure of the mixture obtained by condensing the vapour above this solution in a beaker is :