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What elementary particles do would depend on what type of particle they are. For example, there are antimatter particles, force particles, and matter particles.
Elementary (fundamental) particles have not components; other particles (as protons and neutrons) are composed from other particles.
Subatomic particles are proton, neutron, electron; these particle are some examples of the large group of elementary particles.
When scientists say that quarks are elementary particles it means that they are NOT made up of other particles.
Yes, the muon is a subatomic elementary particle. The subatomic label is not really needed; all elementary particles are subatomic.
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Subatomic particles are made up of 2 parts; composite particles and elementary particles. The composite particles consist of the protons and neutrons comprised in an atom. The elementary particles have no substructure and are not made up of any other particles.
Other elementary particles which are not parts of the atom.
It lacks electrons rather then having an excess of elementary particles, but basically it's an excess of protons.
There is no antimatter identified yet. Location in space and time are used as coordinates of an event. Matter is a form of energy. Sub-elementary particles (from which we know some of them) organize as elementary particles (electron, neutrino and protons). Further, elementary particles organize as atoms which gather in molecules or matter. Antimatter could be, if it exists, from a special kind of sub-elementary particles which we do not about yet.
Neutrinos are considered to be elementary particles without any internal structure (i.e., they are not believed to be composed of yet smaller and more elementary particles.)
W. Galbraith has written: 'How elementary are elementary particles?' -- subject(s): Addresses, essays, lectures, Particles (Nuclear physics)