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
none of the particles are 1g. (g stands for gram which is about the weight of a small paperclip.) however the proton has a positive charge.
This elementary particle is the electron.
neutron
Electron
a neutron, a proton is positively charged and an electron is negatively charged :)
none of the particles are 1g. (g stands for gram which is about the weight of a small paperclip.) however the proton has a positive charge.
This elementary particle is the electron.
It is a sub atomic particle. It is positively charged
Proton is a positive particle and electron is a negative particle.
Is a small, positive charged particle in the nucleus of the atom.
it is the neutron
neutron
Positron
A small piece of matter. Depending on the context, it may be a grain of dust, or something much smaller, such as a molecule, an atom, or a subatomic particle.
I think you mean a neutron. We don't say 'a neutral charge', but rather that it has no charge.
Electron
I would say a neutrino, because its charge is zero. ------------------------------------------------------------------------ Neutrino is not considered as a subatomic particle. Proton (positively charged) and electron (negatively charged) have very small electrical charge.