9. `kbar.ibar`=

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.

The value of Henry's law constant for some gases at 293 K is given below. Arrange the gases in the increasing order of their solubility . He:144.97 kbar, H_2 :69.16 kbar, N_2 :76.48 kbar, O_2 : 34.86 kbar

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

If O_(2) gas is bubbled through water at 293 K, how many millimoles of O_(2) gas would dissolve in 1 litre of water? Assume that the partial pressure of O_(2) is 0.987 bar. Given that Henry's law constant for O_(2) at 293K is 34.86 kbar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.

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

Henry’s constant (in kbar) for four gases alpha, beta, gamma and delta in water at 298 K is given below : ("density of water = 103 kg m"^(-3)" at 298 K") This table implies that :

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 constants ( K _ H ) are 0.5, 2, 35 and 40 kbar, respectively. The correct plot for the given data is :