i think it is a gluon
The muon decay equation is: - e- e . This equation describes the process of muon decay, where a muon (-) transforms into an electron (e-), an electron neutrino (e), and a muon neutrino (). This decay process occurs due to the weak nuclear force, which causes the muon to change into lighter particles.
The plural of gluon is gluons.
The symbol for a muon is μ. It is a Greek letter used to represent this subatomic particle.
Gluon
The charge of a muon is -1 elementary charge, which is the same as the charge of an electron.
The muon decay equation is: - e- e . This equation describes the process of muon decay, where a muon (-) transforms into an electron (e-), an electron neutrino (e), and a muon neutrino (). This decay process occurs due to the weak nuclear force, which causes the muon to change into lighter particles.
The plural of gluon is gluons.
The symbol for a muon is μ. It is a Greek letter used to represent this subatomic particle.
Gluon
Two particles: muon and muon neutrino.
The charge of a muon is -1 elementary charge, which is the same as the charge of an electron.
The electric charge of a muon is -1 elementary charge, which is the same as the charge of an electron.
6 Quarks (Up, Down, Charm, Strange, Top, Bottom) 6 Leptons (Electron, Muon, Tau, Electron Neutrino, Muon Neutrino, Tau Neutrino) 5 Bosons (Photon, W+,W- & Z Bosons, Gluon) Overall 17
muon
1979
The Gluon and the Meson carry the Strong force
They aren't 3 they are in fact 12 if you count anti matter as a separate particle from matter. Electron, muon, tau, electron neutrino, muon neutrino and tau neutrino. The same apply to anti matter positron, anti muon, anti tau, postrin neutrino, anti muon neutrino, and anti tau neutrino.