Gluon was found at the German Electron Synchrotron in 1979.
The plural of gluon is gluons.
Gluon
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.
YES , A GLUON A particle smaller than atom is a subatomic particle, protons , neutrons, and , electrons, the smallest one is an electron, smaller than that are point particles and elementary particles, one elementary particle and point particle is a quark, up quarks down quarks the smallest single thing found so far is a GLUON, which is the force which binds/holds quarks together. Where the devil lives in anti matter there are also atoms and subatomic particles and point particles but just anti, anti- GLUON, anti-QUARK, anti-ATOM, anti-SUBATOMIC PARTICLE. There is something called the string theory, and super string theory that theorizes about bosonic/boson strings but it can not be provine yet, and I think a gluon is still alot smaller than a bosonic/boson string if they are true. HOPE THIS HELPS
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
1979
The plural of gluon is gluons.
Gluon
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.
The Gluon and the Meson carry the Strong force
A particle that binds quarks to one another. (Apex)
Proton, neutron, gluon.
he looks like a gluon
Gluon was found at the German Electron Synchrotron in 1979.
No.It is Event Horizon.
A Gluon - the force-carrying particle of the strong nuclear force.
== == The Higgs Boson is another theoretical particle thought to be responsible for the presence of mass in other particles that have mass. I believe the Higgs Boson is theorized to be itself massless. there are 3 known massless particles: the gauge boson, the photon, and the gluon ( the gluon isn't necessarily categorized as a free particle due to the fact that they are confined to hadrons) neutrinos were also, until recently, were thought to be massless. however, they were discovered to change flavor, which means that they must have mass.