According to which law the solubility of a gas at equilibrium and constant temperature varies directly with the pressure of the gas, provided the gas does not undergo any chemical change during the dissolution?

If a gas, at constant temperature and pressure expands, then its

A gas is in equilibrium with water at a certain temperature and pressure what will happen if Pressure of the gas is increased ?

According to Henry's law, the solubility of a gas in a given volume of liquid increases with increases in :

The solubility of gas in liquid is directly proportional to the pressure over the solutions at a given temperature.

Which law states that "product of volume and pressure at constant temperature is constant for a dry gas of given mass".

The volume of a confined gas varies inversely with the absolute pressure provided that the temperature remains unchanged. This statement is known as

The solubility of a gas varies directly with pressure of the gas is based upon : 1) Raoult's Law 2) Henry's law 3) Nernst's Distribution law 4) None of these

According to William Henry,the solubility of a gas in liquid depends on the pressure of the gas .if 'm' is the molality of the gas and'P' is its pressure then which of the following plot is in accordance with the law:

A : At constant temperature, the gas density is directly proportional to pressure. R : More is the pressure of the gas , the denser it becomes.