Examples of subatomic particles include electrons, protons, and neutrons. Electrons have a negative charge, protons have a positive charge, and neutrons have no charge. These particles are the building blocks of atoms.
The electron, muon and tau; the down quark, the strange quark, the bottom quark; and the W boson.
I suppose you are talking about electric charge (since there are others like color or hypercharge). Everything is in units of the elementary charge (i.e. ~1.6 * 10-19 C) The following particles have a charge of +2/3 Up Quark, Charm Quark, Top Quark The following particles have a charge of -1/3 Down Quark, Strange Quark, Bottom Quark The following particles have a charge of -1 Electron, Muon, Tau, Proton (but the Proton consists of two ups and one down quark), W- boson The following particles have a charge of +1 W+ boson The following particles have no charge: Electron Neutrino, Muon Neutrino, Tau Neutrino, Neutron (consists of two down and one up quark), Photon, Higgs (not found yet), Graviton (also not yet found), Z0 boson, gluon. There are also various other composite particles such as mesons, but those are far too numerous to list.
A quark is the smallest known particle, which makes up protons and neutrons found in the nucleus of atoms. This means that quarks are smaller than protons, neutrons, atoms, and molecules.
If a meson were made up of a quark and an antiquark with different colors but the antiquark's color was not the anticolor of the quark, then the meson would not be color-neutral overall. This configuration would violate the requirement for color neutrality in hadrons as defined by quantum chromodynamics.
Examples of subatomic particles include electrons, protons, and neutrons. Electrons have a negative charge, protons have a positive charge, and neutrons have no charge. These particles are the building blocks of atoms.
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.
Fundamental particles include: 1. photon 2. electron 3. positron 4. proton 5. anti-proton 6. neutron 7. anti-neutron 8. neutrino 9. anti-neutrino 10. Higgs particle 11. muon 12. pion 13. top quark 14. bottom quark 15. up quark 16. down quark 17. strange quark 18. charm quark
Currently quarks are believed to be fundamental particles, and as such are not composed of anything.
The quark composition is different: - proton: 2 up quarks + 1 down quark - netron: 2 down quarks + 1 up quark The down quark is heavier.
A positron is the antiparticle of an electron; in other words, it is an alternate name for the "anti-electron". Therefore, a positron would anihilate with an electron. I am not sure about the "why".
The electron, muon and tau; the down quark, the strange quark, the bottom quark; and the W boson.
The symbol for a muon is μ. It is a Greek letter used to represent this subatomic particle.
A meson is comprised of one quark and one antiquark. Another way to comment on the composition of the meson might be that it contains a quark-antiquark pair. A link can be found below for more information.
I suppose you are talking about electric charge (since there are others like color or hypercharge). Everything is in units of the elementary charge (i.e. ~1.6 * 10-19 C) The following particles have a charge of +2/3 Up Quark, Charm Quark, Top Quark The following particles have a charge of -1/3 Down Quark, Strange Quark, Bottom Quark The following particles have a charge of -1 Electron, Muon, Tau, Proton (but the Proton consists of two ups and one down quark), W- boson The following particles have a charge of +1 W+ boson The following particles have no charge: Electron Neutrino, Muon Neutrino, Tau Neutrino, Neutron (consists of two down and one up quark), Photon, Higgs (not found yet), Graviton (also not yet found), Z0 boson, gluon. There are also various other composite particles such as mesons, but those are far too numerous to list.
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.