The separation of a mixture of liquids by distillation is called

CS_(2) can separate a mixture of

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . a solution of 50% of A and 50% of B on distillation results into Separation of an azeotropic mixture and pure A . Separation of an azeotropic mixture and pure B . Separation of both pure A and pure B . None of these

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . What is the result of distilling a mixture of 80% HNO_(3) and 20%H_(2)O ? (a)Pure H_(2)O and azeotropic mixture can be separated. (b)Pure H_(2)O and pure HNO_(3) can be separated. (c)Pure HNO_(3) and azeotropic mixture can be separated. (d)None of these

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . What is the result of distilling a mixture of 50% HNO_(3) and 50%H(2)O ? a.Pure water and azeotropic mixtue can be separated. b.Pure H_(2)O and pure HNO_(3) can be separated. c.Pure HNO_(3) and azeotropic mixture can be separated. d.None of these

Can we separate the components of azeotropic mixture by distillation?

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . Which of the following statements is/are correct? i. HNO_(3) solution is not obeying the Raoult's law. ii. More the difference in vapour pressure of pure compounds forming a mixture, easier to separate them through distillation. iii. T_(2) is less than T_(1) because the liquid of composition Q is richer in more volatile component.

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . At temperature T_(1) and composition Q , which of the following is true? a.Vapour phase is richer in B while liquid phase is richer in A . b.Distillation of composition Q gives only pure A . c.Distillation of composition Q gives only pure A and pure B . d.Distillation of composition Q gives higher percentage of B and A .

The process of separation of a recemic mixture into d- and 1- components is called .........

The diagram represents fractional distillation for separation of mixtures. Answer the following: Separation of liquids by this process is based on which physical property.