Total vapour pressure of mixture of 1 mol of volatile component A(`p_(A)^(@)=100`mm Hg) and 3 mol of volatile component B(`p_(B)^(@)`=60 mm Hg) is 75 mm. For such case:

Answer the question (given below) which are based on the following diagra. Consider some facts about the above phase diagram : Vapour pressure diagram for real solutions of two liquids A and B that exhibit a positive deviation from Raoult's law. The vapour pressure of both A and B are greater than predicted by Raoult's law. The dashed lines lines represented the plots for ideal solutions. Total vapour pressure of mixture of 1 mol of volatile component A(P_(A)^(@)=100 mmHg) and 3 mol of volatile component B(P_(B)^(@)=60 mmHg) is 75 mm . For such case:

Total vapour pressure of mixture of 1 mol of volatile component A(P_(A^(@))=100mmHg) and 3 mol of volatile component B(P_(B^(@)=60 mmHg) is 75mm . For such case:

Total vapour pressure of mixture of 1 mole of volatile component A (P_(A)^(@)=100 mm Hg) and 3 mole of volatile component B (P_(B)^(@)=80 mm Hg) is 90 mm Hg . For such case :

Total vapour pressure of mixture of 1 mol volatile component A(P^(@)A="100 mm Hg") and 3 mol of volatile component B(P^(@)B="60 mm Hg") is 75 mm. For such case -

Total vapour pressure of mixture of 1 mole of volaile components A ( P_(a^(%) )=100 mm Hg) and 3 mole of volatile component B( P_B^(@) =80 mm Hg ) is 90 mm Hg. For such case:

A mixture contains 1 mole of volatile liquid A (P_(A)^(@) =100mm Hg) and 3 moles of volatile liquid B (P_(B)^(@) =80 mm Hg). If solution behaves ideally, the total vapour pressure of the distillate is :

A mixture contains 1 mole of volatile liquid A ("P"_("A")^(0)=80"mm Hg"). and 3 moles of volatile liquid B ("P"_("A")^(0)=80"mm Hg"). If solution behaves ideally, the total vapour pressure of the distillate is

Vapour pressure of pure A(p_(A)^(@))=100 mm Hg Vapour pressure of pure B(p_(B)^(@))= 150 mm Hg 2 mol of liquid A and 3 mol of liquid B are mixed to form an ideal solution. The vapour pressure of solution will be: