Gas in liquid Solution:
Gases are soluble in liquid to different extents. e.g., solubility of hydrochloric acid gas in water is more than the solubility of oxygen in water. The extent to which a gas dissolves in a liquid depends upon-
1) Nature of gas and liquid: Solubility of non-polar bromine is more in non-polar solvents like CCI4, CS2, etc than in polar water.
2) Temperature: Solubility of a gas in a liquid decrease with the increase in temperature.
3) Pressure: Solubility of a gas in a liquid increase with increase in pressure of the gas above the solution.
Henry’s Law: At constant temperature, the solubility of a gas is directly proportional to the pressure at which it is dissolved. If m is the amount of gas and p is the pressure of gas in equilibrium with the solution, then according to Henry’s Law,
m α p
Or, m= KH p
Where, KH = Proportionality constant, called Henry’s constant,
m = amount of gas
p = pressure of gas
Limitation of Henry’s Law: Henry’s Law is valid only under following conditions:
- The pressure and temperature of gas should not be very high.
- The gas should not undergo any chemical reaction with solvents
- The gas should not undergo dissociation in solution