The positively charged particle in an atom is a proton.
Proton - positive
Neutron - neutral
Electron - negative
positive charged subatomic particles are protons. They are present inside nucleus.
This particle is the proton.
Proton
a proton
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
If you mean the nucleus, than I have the answer. The nucleus is the part of an atom that holds protons and neutrons. (Protons have positive charge, neutrons have no charge.)
The molecule of carbon monoxide is slightly polarized; oxygen has a small positive charge and carbon has a small negative charge.
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 a virus is a prion. It can cause diseases and is a misfolded protein. 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.
A Neutron is a particle that holds no charge. A Proton holds a positive charge, and an electron holds a negative charge.
Neutral (ba-dump-tsssh!). There are a number of particles with no electric charge, including but not limited to"NeutronsNeutrinos (all varieties)PhotonsGluons (gluons carry "color charge", but not electric charge)Gravitons (provided they exist; the jury is still out on that)
The proton hs a nucleus in the atom which holds the charge. Like all hadrons, protons consist of three quarks: two ups and one down. The combination of these three results in a particle with a charge of positive one.
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
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
A proton is a part of an atom. The other parts of an atom are the neutron, and electrons. It's an electrically charged particle. It is positive. It is located within the nucleus of the atom, which is about one ten thousandth of the diameter of the atom itself but contains virtually all of the atom's mass. The number of protons in the nucleus determine the element; for example, if the nucleus contains 8 protons it is an oxygen atom. The protons are subtracted from the total atom mass, and therefore, the other mass are the neutrons. A proton is one of the three basic "building blocks" of the atom (along with the neutron and electron). It is a subatomic particle with a unit positive charge. (The unit of charge is 1.602 x 10-19 coulomb.) It has a diameter of 1.6 to 1.7 x 10-15 meter. It's mass is about 1.6726 x 10-27 kilogram. It is a fermion with a + 1/2 spin, and is, therefore, a baryon. It is composed of two up quarks and a down quark, and it is held together by the strong interaction (strong force). It is a nucleon, a particle of the atomic nucleus (with the neutron), and, as such will undergo mass deficit (along with any other nucleons) to fuse into an atomic nucleus. The resultant mass lost in fusion is the residual strong force, and this is the nuclear binding energy, nuclear glue, that holds an atomic nucleus together. The electrostatic repulsion between protons creates an upper limit on the size of an atomic nucleus because of the limits of this binding energy. By itself, the proton is a hydrogen nucleus. It's discovery is generally credited to Ernest Rutherford (in 1918). It has an antiparticle called the antiproton. The definition of the word proton is "a stable subatomic particle occurring in all atomic nuclei, with a positive electric charge equal in magnitude to that of an electron, but of opposite sign."
If you mean the nucleus, than I have the answer. The nucleus is the part of an atom that holds protons and neutrons. (Protons have positive charge, neutrons have no charge.)
No. A gluon, however, can be thought of as one. It's the particle that holds quarks together inside of hadrons (particles composed of three quarks) and mesons (particles composed of a quark-antiquark pair). The gluon is called a gauge boson- a fundamental particle that mediates one of the fundamental forces. Glucose is a type of sugar.
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 protons are a positive charge and electrons are a negative charge wich allows them to attracts to each other holding them together.