Henry's law constant for nitrogen at `20^@C` is 76.48 k bar. Assuming the partial pressure as 0.987 bar, calculate mass of nitrogen dissovled in one litre water at `20^@C`.

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

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.

Henry law constant for oxygen dissolved in water is 4.34 xx 10^(4) atm at 25^(@) C . If the partial pressure of oxygen in air is 0.4 atm.Calculate the concentration ( in moles per litre) of the dissolved oxygen in equilbrium with air at 25^@C .

The Henry's law constant for a solution of acetone in chloroform is 0.2 bar when the solution is at 308 K. Calculate the value of vapour pressure of acetone when its mole fraction is 0.14.

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.

At a temperature of 20^(@)C , vapour pressure of water is 17.5 torr. If relative humidity is 45% , calculate the moles of water present in one litre of air at 20^(@)C .

Calculate the total pressure in a 10 litre cylinder which contains 0.4g of helium, 1.6g of oxygen and 1.4g of nitrogen at 27^(@)C . Also calculate the partial pressure of helium gas in the cylinder. Assume ideal behaviour of gases. Given R = 0.082 litre atm K^(-1) mol^(-1) .

At 20 ^(@) C the solubility of N_2 gas in water is 0.0150 g L^(-1) when the partial pressure of the gas is 580 torr . Find the solubility of nitrogen in water at 20 ^(@) C when the partial pressure is 800 torr.

At 760 torr pressure and 20^(@)C tempreature , 1 L of water dissolves 0.04 gm of pure oxygen or 0.02 gm of pure nitrogen. Assuming that dry air is compound of 20% oxygen and 80% nitrogen (by volume), the masses (in g/L) of oxygen and nitrogen dissolved by 1 L of water at 20^(@)C exposed to air at a total pressure of 760 torr are respectively :

A sample of nitrogen gas occupies a volume of 1 L at a pressure of 0.5 bar at 40^@C . Calculate the pressure if the gas is compressed to 0.225 cm^3 "at" -6^@C