Proton or neutron
Atoms are composed of protons, electrons and neutrons (save hydrogen-1, which lacks any neutrons). Protons and neutrons are baryons, which are made up of three quarks. Having said that, the quark, which is a fundamental particle, is smaller than an atom by a great deal. Further, the quark is smaller than either a proton or neutron, as both are made of three quarks. The electron is a fundamental particle, and it is smaller still than a quark.When we look at the fundamental particles as they are described in the Standard Model, only the photon and gluon, which are force carriers, are smaller. It should be noted that the way we relate "smaller" in this case is by stating a mass-energy equivalence and describing the mass of the fundamental particles in terms of energy. Use the link below to see a chart of the sixteen particles that make up the three generations of matter.
the famous, cat-like
There is no evidence of him having a bad temper. He was described by people who knew him personally as having "infinite grace", "great strength and generosity", "regal spirit and tremendous breadth of mind". He was also known for buying caged birds and freeing them.
Actually 'an' up quark.The weak nuclear force permits an interaction between an up quark and an electron that converts the up quark to a down quark and the electron ceases to exist, also an interaction between a down quark and a positron that converts the down quark to an up quark and the positron ceases to exist. There are also weak nuclear force interactions that change quark types by emitting electrons or positrons. Both the absorption and emission interactions described above are referred to as Beta Decay Processes. All Beta Decay Processes also involve emission of an electron neutrino or an electron antineutrino (the lightest known particle having a nonzero mass and a particle that has almost no interaction at all with other matter).
The heaviest of the subatomic particles is the neutron, which has a neutral charge, followed extremely closely by the proton, which has a positive charge. The electrons that orbit protons and neutrons have an extremely small mass relative to the other two, but have a negative charge equal in magnitude to that of the proton.
Yes it is.
This particle is the neutron.
The Higgs Boson is a theoretical subatomic particle which is being sought in particle accelerator experiments and has recently been reported as having been proven to exist.
The Higgs Boson is a theoretical subatomic particle which is being sought in particle accelerator experiments and has recently been reported as having been proven to exist.
The Nucleus.
Beta
Protons are a type of subatomic particle, which are found in the nucleus of every atom. Protons have an electrical charge of +1. A proton is about 2000 times heavier than an electron.
Technically all subatomic particles have mass. However, the electron is so small that it was once considered to have no mass. Wrong, both photons and gravitons are subatomic particles with no mass.
an alpha particle
There are two types of subatomic particles hypothesized to comprise protons and neutrons. Elementary particles having mass by the types of quarks, leptons and bosons are the first. The second are composite particles, which include baryons, mesons, and leptons.
The smallest particle of matter having distinctive chemical and physiacl properties; a tiny particle
No. The strong nuclear force works through the exchange of a subatomic particle called a meson. Additionally, the strong nuclear force has to hold protons and neutrons together in the nucleus, so having a charge would have no effect on the neutrons.