Fundamental Particles | CIE AS Physics Revision Notes 2025

Fundamental Particles: Quarks

Quarks are fundamental particles that make up other subatomic particles such as protons and neutrons
Protons and neutrons are in a category of particles called hadrons
- Hadrons are defined as any particle made up of quarks
Fundamental means that quarks are not made up of any other particles. Another example is electrons
Quarks have never been observed on their own, they’re either in pairs or groups of three
There are six flavours (types) of quarks that exist:

Quarks, downloadable AS & A Level Physics revision notes

The six flavours of quarks are up, down, charm, strange, top and bottom

Leptons, downloadable AS & A Level Physics revision notes

The six leptons are all fundamental particles

The muon and tau particle are very similar to the electron but with slightly larger mass
Electrons, muon and tau particles all have a charge of -1e and a mass of 0.0005u
There are three flavours (types) of neutrinos (electron, muon, tau)
Neutrinos are the most abundant leptons in the universe
- They have no charge and negligible mass (almost 0)
Leptons interact with the weak interaction, electromagnetic and gravitational forces
However, they do not interact with the strong force
Although quarks are fundamental particles too, they are not classed as leptons
Leptons do not interact with the strong force, whilst quarks do

State all the anti-leptons in the following decay equation.

$π^{+} \to μ^{+} + v_{μ}$

Answer:

The pion (π⁺) is a meson (a type of hadron) and is made up of quarks
- Therefore it is not a fundamental particle and hence not a lepton
The anti-muon (μ⁺) is the anti-particle of the muon
- Therefore it is an anti-lepton
The muon neutrino is a lepton, not an anti-lepton
- The anti-lepton would be the anti-muon neutrino
Therefore, the only anti-lepton is an anti-muon (μ⁺)