Because, they go with all forces of elecrons.
In an atom, the neutrons and protons are made up of up quarks and down quarks. Strange quarks, charms quarks, top quarks, and bottom quarks also exist, but do not play as much of a role in the structure of an atom.
There are 3 generations of quarks; each generation having 2 different quarks within it. Thus, there are 3 X 2 = 6 types of quarks. Their names are up, down, strange, charm, top, and bottom. Each of these 6 quarks has a unique antiparticle associated with it. Thus, there are in fact 6 X 2 = 12 different quarks in total.
Different quarks last different amounts of time, but all of the six quarks can only last on their own for small fractions of a second.
The Top, Charm, and Up quarks have +2/3 of an 'elementary' charge. The Bottom, Strange, and Down quarks have -1/3 of an 'elementary' charge.
Probably "strings" but until that is proven quarks or leptons.
No. Scientists have discovered sub-atomic particles such as quarks.
There are 6 different types of quarks, named in pairs:Top, BottomStrange, CharmUp, Down0123qwerty0123But don't forget that all particles, besides force particles ( gravity-graviton, electromagnetism-photon, weak force-low guage boson, strong force-gluon ), have antimatter counterparts.Anti-top, Anti-bottomAnti-strange, Anti-charmAnti-up, Anti-down
A neutron is basically made up of three quarks - 1 up quark and 2 down quarks. At any one time, each of these quarks have a different so-called "color charge", but they exchange their "color" over time.
A neutron is basically made up of three quarks - 1 up quark and 2 down quarks. At any one time, each of these quarks have a different so-called "color charge", but they exchange their "color" over time.
The quark composition is different: - proton: 2 up quarks + 1 down quark - netron: 2 down quarks + 1 up quark The down quark is heavier.
Hadrons are composed of 3 quarks. Protons and neutrons are hadrons. The 2 types of quarks used in this instance are up quarks and down quarks. Yes, there are quarks in a nucleus.
Quarks and anti-quarks