The Gas Laws (Edexcel IGCSE Physics (Modular))
Revision Note
Written by: Katie M
Reviewed by: Caroline Carroll
The Gas laws
Gas laws provide explanations for the relationships between:
Pressure and volume at a constant temperature
Pressure and (kelvin) temperature at a constant volume
Pressure & volume
If the temperature of a gas remains constant, the pressure of the gas changes when it is:
compressed – decreases the volume which increases the pressure
expanded – increases the volume which decreases the pressure
Pressure increases when a gas is compressed
Similarly, a change in pressure can cause a change in volume
A vacuum pump can be used to remove the air from a sealed container
The diagram below shows the change in volume to a tied up balloon when the pressure of the air around it decreases:
By changing the pressure around the balloon, its change in volume can be seen
For a fixed temperature, if the gas is compressed, the pressure will increase
The particles travel the same speed as before, but the distance they travel is reduced when the container is smaller
The molecules will hit the walls of the container more frequently
This creates a larger overall net force on the walls which increases the pressure
Pressure & temperature
The motion of molecules in a gas changes according to the temperature
As the temperature of a gas increases, the average speed of the molecules also increases
Since the average kinetic energy depends on their speed, the kinetic energy of the molecules also increases if its volume remains constant
The hotter the gas, the higher the average kinetic energy
The cooler the gas, the lower the average kinetic energy
If the gas is heated up, the molecules will travel at a higher speed
This means they will collide with the walls more often
This creates an increase in pressure
Therefore, at a constant volume, an increase in temperature increases the pressure of a gas and vice versa
Diagram A shows molecules in the same volume collide with the walls of the container more with an increase in temperature
Diagram B shows that since the temperature is proportional to the pressure, the graph against each is a straight line
At constant volume, an increase in the temperature of the gas increases the pressure due to more collisions on the container walls
Examiner Tips and Tricks
You are required to be able to describe the links between pressure & volume and pressure & temperature qualitatively. This means that the correct use of terms such as 'collision', 'kinetic energy' and 'frequency', will be really important.
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