Subatomic particles are protons, neutrons and electrons.
Ions and isotopes are both atoms of a given element with a different number of particles. While the number of protons in an element never change, the number of neutrons and electrons can. In an ion their is a different number of electrons, changing the charge, but having a negligible effect on the mass. Among isotopes the number of neutrons varies, changing the atomic mass but not the charge.
10 isotopes 10 isotopes
Nitrogen isotopes do not have a charge.Ions have a charge.
Protons
Not ions, but isotopes.
no an ion is a electrically charged atom
Probable you think to ions but ions are not subatomic particles.
Probable you think to ions but ions are not subatomic particles.
Ions have more or less electrons than a neutral atom.
Subatomic particles.
No. An atom with a positive charge is an ion, but atoms can also be neutral. The subatomic particles in atoms are protons, electrons, and (except for a very few low mass isotopes) neutrons.
Protons and neutrons with no electrons are an-ions. Electron superior atoms are considered Cat-ions. So all depending on what is superior with-in the atom.
No, the particles in the nucleus are called protons (positively charged) and neutrons (neutral or no charge) and are made of quarks
Ions are charged particles caused by the loss or gain of an electron moving the atom from its ground state to an excited state. an isotope is formed from the loss of a neutron.
no. ions are made of relatively whole atoms (plus or minus a few electrons)
All isotopes/ions of Platinum have the same number of protons: 78. If it had a different number of protons, then it would be a completely different element. The only subatomic particles that change in an atom are the electrons and neutrons. The most common isotope of Platinum is 195Pt with 117 neutrons.
Ions and isotopes are both atoms of a given element with a different number of particles. While the number of protons in an element never change, the number of neutrons and electrons can. In an ion their is a different number of electrons, changing the charge, but having a negligible effect on the mass. Among isotopes the number of neutrons varies, changing the atomic mass but not the charge.