For the solution of the gases ` W, X, Y ` and Z in water at 298 K , the Henry's law constants (`K _ H `) are 0.5, 2, 35 and 40 kbar, respectively. The correct plot for the given data is :

For the solution of the gases W, X, Y and z in water at 298 K , the Henrys law constants ( K _ H ) are 0.5, 2, 35 and 40 kbar, respectively. The correct plot for the given data is :

For the solution of the gases w,x,y and z in water at 298 K the Henry's law constant (K_(H)) are 0.5,2,35 and 40 k bar ,respectively. The correct plot for the given data is :

The air is a mixture of a number of gases. The maojr components are oxygen and nitrogen with approximate proportion of 20% is to 79% by volume at 298 K. The water is in equilibrium with air at a pressure of 10 atm. At 298 K if the Henry's law constants for oxygen and nitrogen at 298 K are 3.30xx10^(7) mm and 6.51xx10^(7) mm respectively, calculate the composition of these gases in water.

Four gases alpha, beta, gamma and delta have K_H values 50kbar, 20 kbar, 2xx10^(-3) kbar and 2 kbar respectively. then ?

Henry's law constant of CO_2 in water at 298K is 5/3K bar. IF pressure of CO_2 is 0.01 bar, find its mole fraction.

1 kg of water under a nitrogen pressure of 1 atmosphere dissolves 0.02 gm of nitrogen at 293 K. Calculate Henry' s law constant :

The Henry's law constant for CO_(2) in water at 298 K is 1.67 kbar. Calculate the solubility of CO_(2) at 298 K when the pressure of CO_(2) is one bar.

For a solution of acetone in chloroform, Henry's law constant is 150 torr at a temperature of 300 K. (a) Calculate the vapour pressure of acetone when the mole fraction is 0.12. (b) Assuming that Henry's law is applicable over sufficient range of composition to make the calculation valid, calculate the composition at which Henry's law pressure of chloroform is equal to Henry's law pressure of acetone at 300 K. (Henry's law constant for chloroform is 175 torr.)

1 litre of water under a nitrogen pressure of 1 bar dissolves 2xx10^(-5) kg of nitrogen at 293 K. Calculate Henry's law constant.

When a gas is bubbled through water at 298 K, a very dilute solution of gas is obtained . Henry's law constant for the gas is 100 kbar. If gas exerts a pressure of 1 bar, the number of moles of gas dissolved in 1 litre of water is