2.2 × 10-6
Two particles: muon and muon neutrino.
muon
Yes, the muon is a subatomic elementary particle. The subatomic label is not really needed; all elementary particles are subatomic.
Negatively charged pions decay into muons and muon anti-neutrinos via the weak nuclear interaction. The probability of such a decay occurring is approximately 99.98%. Muons can also decay into electrons and electron anti-neutrinos, but the probability of such a thing occurring is only about 0.012% Positively charged mouns decay into anti-muons and muon neutrinos instead. Neutral pions decay into either two photons or a photon and one electron and one positron. One decay of a negatively charged pion produces one muon and one muon anti-neutrino.
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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 symbol for a muon is μ. It is a Greek letter used to represent this subatomic particle.
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.
muon
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.
An antimuon is an antiparticle corresponding to a muon.
Muon decay is a process where a muon particle transforms into other particles, such as an electron and two neutrinos. This decay helps scientists study the fundamental forces and interactions in particle physics. By observing muon decay, researchers can gather insights into the weak nuclear force and the structure of matter at a subatomic level.
A Muon is currently considered an 'elementary particle', it has no known components. If a Muon is made out of smaller particles, they are unknown.
The muon has a mass of 105.7 MeV/c2. You have to remember that there are six different types of quarks, eachwith a different mass. The up, down, and strange have a lower mass than the muon. The charm, bottom, and top have a greater mass.
A muon is larger than a gluon. A muon is a subatomic particle that is about 200 times more massive than an electron, while a gluon is a massless particle that mediates the strong nuclear force in the Standard Model of particle physics.