The ratio of partial pressure of a gaseous component to the total vapour pressure of the mixture is equal to `:`

Define vapour pressure.

Mole fraction of component A in vapour phase is chi_(1) and that of component A in liquid mixture is chi_2 , then ( p_(A)^@ )= vapour pressure of pure A, p_(B)^@ = vapour pressure of pure B), the total vapour pressure of liquid mixture is

Mole fraction of component A in vapour phase is chi_(1) and that of component A in liquid mixture is chi_2 , then ( p_(A)^@ )= vapour pressure of pure A, p_(B)^@ = vapour pressure of pure B), the total vapour pressure of liquid mixture is

For a reaction at equilibrium, the partial pressure of B is found to be one fourth of the partial pressure of A. The value of Delta G^(theta) of the reaction A rarr B is

In a given mixture of gases which do not react with one another, the ratio of partial pressure to total pressure of each employment is equal to its

Equal weights of SO_(2) and O_(2) are mixed in an empty container at 300 K . The total pressure exerted by the gaseous mixture is 1 atm . The partial pressure of SO_2 gas in the mixture is

Lowering in vapour pressure is highest for

Components, A and B, respectively of an ideal binary solution. If X_A represents the mole fraction of component A, the total pressure of the solution will be :