Question

What are the basic elementary particles( Sub atomic) in physics?, according to general model?

Answer 1

proton, electron and neutron...

Answer 2

no ,not these I want to know about quarks , leptons, and bosons

Answer 3

gluons, fotons,quarks

Answer 4

There is an entirely series of particules. I think it's better for you to search in google, or more accurately founts.
Cientists still haven't proved the existence of all the fundamental particules theorically predicted. Just look to the recently Boson found (and not yet confirmed to be the Higgs boson), or the graviton, still to be found.
My post here is a messy, sorry.

Answer 5

ATOM - NUCLEUS AND ELECTRONS - INSIDE NUCLEUS - PROTONS AND NEUTRONS - INSIDE PROTONS AND NEUTRONS(also ELECTRONS) - THREE 'COLOURED' QUARKS BINDED BY GLUONS - inside quarks there is a theory that its made of tiy strings(string theory)....but there is a limit for this boxes within boxes as going deep down the energy of a particle is high and the least value is planck energy...sorry abt the caps i typd without seeing

Answer 6

According to the standard model of particle physics there are two main divisions of sub-atomic particles. There are bosons, which have integral "spins," and fermions, which have non-integral spins. Microscopically, bosons can be thought of as forces, and fermions as matter. Their differences lead to a few interesting properties. The Pauli exclusion principle states that no two fermions can occupy the same quantum state (essentially be in the same place), while no such analogous law exists for bosons.

The fermions are further divided into quarks and leptons. Leptons have integer electrical charges, and include electrons, electron neutrinos, muons, muon neutrinos, tauons, and tau neutrinos. Electrons, muons and tauons have a charge of -1. The neutrinos have no charge.

Quarks make up the particles in the nucleus of an atom, as well as many other hadrons. Hardons are particles that are made of quarks, they include mesons and baryons. Protons and neutrons are examples of baryons. Baryons consist of 3 quarks, each of which has a different "color." Mesons consist of only 2 quarks, one of which is actually an antiquark. The six quarks are up, down, charm, strange, top, and bottom. The up, charm, and top quarks have charges of +2/3, while the down, strange, and bottom quarks have charges of -1/3. Protons are made of two up quarks and a down quark, giving them a +1 charge, while neutrons are made of 2 down quarks and an up quark, giving them no net charge.

Bosons include photons and gluons, as well as the W, Z, and Higgs bosons (Although the higgs has not been experimentally confirmed, it is theoretically predicted by the standard model.) Photons mediate the electromagnetic force, gluons mediate the strong force, and W and Z bosons mediate the weak force. The higgs boson supposedly confers mass to particles.

Charged leptons interact with photons, W, Z, and higgs bosons. Uncharged leptons only interact with W, Z, and higgs bosons.Quarks interact with all known bosons. Certain bosons, such as gluons and the higgs are notable for interactins with themselves.

The strong force is notable because it keeps the nucleus of an atom together. The weak force is notable due to its importance in the decay of subatomic particles. The electromagnetic force is involved in electricity, magnetism, and the phenomenon of light. The higgs field is notable because it is invariant, or the same everywhere. This is why mass is the same everywhere.

(I felt this long explanation was needed to compensate for the other answers given to this question.)

Answer 7

sorry to make you do extra work @MrMoose please can u draw this as a flow chart...im a confused bit..please

Answer 8

I can find one :P:

Answer 9

neutrono particle

Answer 10

quqrks qnd leptons