Do you mean Charges? There is the Proton which has a positive or + charge. An electron which has a negative or - charge. And a nuetron that has no charge. There are other sub-subatomic particles i don't think they have charges though.... not sure on that one.
These three subatomic particles are: proton (electrically postive), neutron (neutral), electron (electrically negative).
The correct word is here charge, not change.
The neutron,electron,proton are the parts of atom neutron is neutral, proton is positive , electron is negative
Neutron: Charge: neutral Electron: Charge: negative Proton: Charge: positive
The particles of an atom are: protons, neutrons and electrons.
The major players when it comes to subatomic particles within an atom are the proton with a charge of +1, the neutron with no charge or charge 0, and the electron with a charge of -1.
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A colloid is not a subatomic particle.
particle whose dimensions is less then that of atom are said to be subatomic particle . they may be charged or uncharged .eg neutron is uncharged subatomic particle where as electron ,proton , positron are charged subatomic particle.
Subatomic particle
Two of each subatomic particle listed in the question.
least - electron most - the top quark
A colloid is not a subatomic particle.
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protons and neutrons are about 1 amu
The lightest subatomic particle is the electron.
The subatomic particle that has no charge is a neutron.
A negatively charged subatomic particle is an electron, or the antiproton.
The electron is the subatomic particle with a negative charge.
particle whose dimensions is less then that of atom are said to be subatomic particle . they may be charged or uncharged .eg neutron is uncharged subatomic particle where as electron ,proton , positron are charged subatomic particle.
The number of neutrons is different for each isotope.
The number of neutrons is different for each isotope.
Assuming that you mean the chemical properties, the electrons are what define each element. If you meant subatomic particles, then it doesn't matter; each subatomic particle has unique characteristics.
Subatomic particle