The collision between gas molecules is elastic.

The volume of gas is negligible compared to the volume of container.

At constant temperature, each molecule has the same velocity.

Gas molecules move randomly and continuously.

Charles’ law

Avogadro’s law

Boyle’s law

Ideal Gas law

The gas molecules are far apart from each other.

Intermolecular forces become weaker.

Volume of the gas decreases.

It obeys kinetic molecular theory.

Viscosity increases as temperature increases.

Viscosity arises because of cohesive forces within the liquid molecules.

Viscosity increase with stronger intermolecular forces.

Liquid with low viscosity can flow freely.

volume of liquid.

temperature.

molecular size of liquid.

relative molecular mass of liquid.

Directly proportional

Inversely proportional

Remains constant regardless of changes

Independent of each other

Gas molecules stop moving completely at 0 °C.

Pressure of the gas becomes zero at room temperature.

Volume of a gas theoretically becomes zero at absolute zero.

Real gases cannot exist above –273 °C.

As both samples are kept at constant volume, any change in pressure is prevented according to Boyle’s Law.

The lighter hydrogen molecules move faster than oxygen molecules, but their higher velocity balances the lower molecular mass, producing the same pressure. (Kinetic Molecular Theory)

Both flasks contain the same amount of molecules, because each sample is 1 mol of gas. (Avogadro’s Law)

Because temperature is the same, the gases expand equally and thus exert the same pressure, as explained by Charles’s Law.