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When we apply the term fundamental to particles, we refer to a particle that is not made up of other particles. As an example, an electron is a fundamental particle. It is not made up of other particles, and it is, therefore, a fundamental particle. The proton and neutron, on the other hand, are each made up of three quarks. (The proton has two up quarks and a down quark, while the neutron has two down quarks and an up quark.)
Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.
objects are made of atoms, which make molecules. The basic unit of life is the cell
Solids that are made up of particles arranged in repeating geometric patterns are called deposition. It is also known as desublimation. It is a thermodynamic process.
Yes
Yes, everything is made up of particles. For example, humans are made up of particles. There is a world beyond world. Gotta find it.
That basically refers to particles that are not made up of smaller particles. For example, protons and neutrons are made up of smaller particles (quarks), so they are NOT point-like. On the other hand, the quarks themselves, electrons, and photons are believed to be truly elementary - not made up of smaller particles.
Air is made up of different particles
The rings of the planet Saturn are made up of a countless number of small particles. Most of these particles are ice with a small amount of rocky material.
For example the atomic nucleus is composed from neutrons and protons.
Baryons are particles made up of three quarks, for example protons or neutrons.
The answer sort of depends on whether you are considering elemental particles or composite particles. Composite particles are, by their nature, made up from smaller particles. Example of such particles would be an atom (made up from neutron, protons and electrons), protons (made up from quarks) or even mesons (also made up from quarks). Composite particles can 'break down' into their constituents via interactions; for example in nuclear fission uranium atoms are broken down into smaller atoms. Elementary particles do not consist of smaller particles; they are the elementary building blocks which make up all other particles. As such elementary particles cannot break down into their constituents. Elementary particles can however change into other (multiple) particles via decay. For example a muon can decay into an electron, a muon neutrino and an anti electron neutrino. This does not mean the muon consists of these three particles; other decays are also possible.
Particles is the best I can come up with! Everything is made up of particles
When we apply the term fundamental to particles, we refer to a particle that is not made up of other particles. As an example, an electron is a fundamental particle. It is not made up of other particles, and it is, therefore, a fundamental particle. The proton and neutron, on the other hand, are each made up of three quarks. (The proton has two up quarks and a down quark, while the neutron has two down quarks and an up quark.)
Material in the space between the planets. It is made up of atomic particles (mainly protons and electrons) ejected from the Sun via the solar wind, and dust particles mainly from comets.
Material in the space between the planets. It is made up of atomic particles (mainly protons and electrons) ejected from the Sun via the solar wind, and dust particles mainly from comets.
Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.Yes, several particles made up of quarks are known.