Absolute Zero (Edexcel GCSE Physics)
Revision Note
Absolute Zero
The amount of pressure that a gas exerts on its container is dependent on the temperature of the gas
This is because particles move with more energy as their temperature increases
As the temperature of the gas decreases, the pressure on the container also decreases
In 1848, Mathematician and Physicist, Lord Kelvin, recognised that there must be a temperature at which the particles in a gas exert no pressure
At this temperature they must no longer be moving, and hence not colliding with their container
This temperature is called absolute zero and is equal to -273 °C
At absolute zero, or -273 °C, particles will have no net movement. It is therefore not possible to have a lower temperature
Absolute zero is defined as:
The temperature at which the molecules in a substance have zero kinetic energy
This means for a system at absolute zero, it is not possible to remove any more energy from it
Even in space, the temperature is roughly 2.7 °C above absolute zero
The Kelvin Temperature Scale
The Kelvin temperature scale begins at absolute zero
0 K is equal to -273 °C
An increase of 1 K is the same change as an increase of 1 °C
It is not possible to have a temperature lower than 0 K
This means a temperature in Kelvin will never be a negative value
Using the Kelvin Scale
To convert between temperatures θ in the Celsius scale, and T in the Kelvin scale, use the following conversion:
θ / °C = T / K − 273
T / K = θ / °C + 273
Conversion chart relating the temperature on the Kelvin and Celsius scales
The divisions on both scales are equal. This means:
A change in a temperature of 1 K is equal to a change in temperature of 1 °C
Worked Example
The temperature in a room is 300 K. What is this temperature in Celsius?
Answer:
Step 1: Kelvin to Celsius equation
θ / °C = T / K − 273
Step 2: Substitute in value of 300 K
300 K − 273 = 27 °C
Examiner Tips and Tricks
If you forget in the exam whether it’s +273 or −273, just remember that 0 °C = 273 K. This way, when you know that you need to +273 to a temperature in degrees to get a temperature in Kelvin. For example: 0 °C + 273 = 273 K.
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