In a unit of a proton's charge (1.602×10−19 coulombs), there are leptons (such as an electron) and their antiparticles, with a charge of -1 and +1, respectively, and charged baryon (such as a proton) and their antiparticles. Not all baryons have an electric charge; some are neutral, such as the neutron, and others have a charge of +2.
For example, the Δ++ (delta plus-plus) particle has a charge of +2. This is because all baryons are composed of particles called quarks, which are never found in isolation. There are a total of six quarks; three have a charge of +2/3 and three have a charge of -1/3 with respect to a proton's charge.
A particle is of indeterminate size. Large 'particles' may be suspended in something like water and cause that substance to look cloudy. Smaller particles may be the subatomic particles like protons, neutrons, and electrons that make up atoms. Different atoms have different numbers of these particles, expecially protons which determine which atom it is.
A particle smaller than atom is a subatomic particle, protons , neutrons, and , electrons, the smallest one is an electron, smaller than that are point particles and elementary particles, one elementary particle and point particle is a quark, up quarks down quarks the smallest single thing found so far is a GLUON, which is the force which binds/holds quarks together. Where the devil lives in anti matter there are also atoms and subatomic particles and point particles but just anti, anti- GLUON, anti-QUARK, anti-ATOM, anti-SUBATOMIC PARTICLE. There is something called the string theory, and super string theory that theorizes about bosonic/boson strings but it can not be provine yet, and I think a gluon is still alot smaller than a bosonic/boson string if they are true. HOPE THIS HELPS
A particle smaller than atom is a subatomic particle, protons , neutrons, and , electrons, the smallest one is an electron, smaller than that are point particles and elementary particles, one elementary particle and point particle is a quark, up quarks down quarks the smallest single thing found so far is a GLUON, which is the force which binds/holds quarks together. Where the devil lives in anti matter there are also atoms and subatomic particles and point particles but just anti, anti- GLUON, anti-QUARK, anti-ATOM, anti-SUBATOMIC PARTICLE. There is something called the string theory, and super string theory that theorizes about bosonic/boson strings but it can not be provine yet, and I think a gluon is still alot smaller than a bosonic/boson string if they are true. HOPE THIS HELPS
The most basic elements of the universe are believed to be subatomic particles, such as protons, neutrons, and electrons. These particles combine to form atoms, which in turn make up all matter in the universe. Other fundamental components include forces like gravity and electromagnetism, as well as energy.
In 1910, a physicist from New Zealand, Ernest Rutherford performed an experiment known as Rutherfordâ??s gold foil experiment. After Rutherford's theory, scientists began to consider that the atom is not a single particle, but it is made up of very smaller subatomic particles.
Such particles include Electron and betatron (beta particle)
A particle is of indeterminate size. Large 'particles' may be suspended in something like water and cause that substance to look cloudy. Smaller particles may be the subatomic particles like protons, neutrons, and electrons that make up atoms. Different atoms have different numbers of these particles, expecially protons which determine which atom it is.
A proton has single positive charge neutrons have no charge and a electron has a single negative charge
That is called an electrical current, or just a current.
Protons have a single unit of positive electrical charge (+) Electrons have a single unit of negative electrical charge (-) Neutrons have no electrical charge
the subatomic particles in hydrogen conclude of maltose and glucose Memphis
because in their neutral state the number of positive particles is equal to the number of negative particles and the magnitude of a single positive charge is the same as the magnitude of a single negative charge in short the positive and negative charges cancel each other out
The element hydrogen is the only element that lacks neutrons in its nucleus, consisting only of a single proton and an electron.
A tiny unit of energy, used for subatomic particles, is the electron-volt (eV). Multiples, like keV, MeV, and TeV, are also used. Because the mass-energy equivalence is quite clear in the subatomic world, the mass of particles is also often expressed in electron-volts.A tiny unit of energy, used for subatomic particles, is the electron-volt (eV). Multiples, like keV, MeV, and TeV, are also used. Because the mass-energy equivalence is quite clear in the subatomic world, the mass of particles is also often expressed in electron-volts.A tiny unit of energy, used for subatomic particles, is the electron-volt (eV). Multiples, like keV, MeV, and TeV, are also used. Because the mass-energy equivalence is quite clear in the subatomic world, the mass of particles is also often expressed in electron-volts.A tiny unit of energy, used for subatomic particles, is the electron-volt (eV). Multiples, like keV, MeV, and TeV, are also used. Because the mass-energy equivalence is quite clear in the subatomic world, the mass of particles is also often expressed in electron-volts.
It is the neutron and proton that make up the nucleus of an atom. The only exception is Hydrogen (isotope mass number 1), having only one (single) proton in its nucleus and no neutrons. All other atoms have a nucleus that is made up of combinations of these two subatomic particles.
There are two types of subatomic particles located within the nucleus, the proton and the neutron. They way they are arranged, however, is in a kind of jumbled way. That, and the fact that they are constantly interacting via the strong nuclear force by changing back and forth from one to the other means that their really is no single, specific subatomic particle that is located at the center of the nucleus.
The net movement of electric charges in a single direction is called electric current. This current flows through a conductor, such as a wire, and is responsible for carrying electrical energy from one place to another. It is measured in Amperes (A).