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

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

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 x xx 10^(-5) . Find the value of x here? Report your answer upto two decimal places.

N_(2) gas is bubbled through water at 293 K and the partial pressure of N_(2) is 0.987 bar .If the henry's law constant for N_(2) at 293 K is 76.84 kbar, the number of millimoles of N_(2) gas that will dissolve in 1 L of water at 293 K is

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.

When CO_(2) gas is dissolved in water, the pH of the solution becomes.

Let gas (A) present in air is dissolved in 20 moles of water at 298K and 20 atm pressure. The mole fraction of gas (A) in air is 0.2 and the Henry's law constant for solubility of gas (A) in water at 298K is 1×10^5 atm.The number of mole of gas (A) dissolved in water will be

The Henry’s law constant of a gas is 6.7×10^-4 mol/(L bar). Its solubility when the partial pressure of the gas at 298K is 0.65 bar is