the charge of protons in the nucleus (or the atomic #)
electrons are small, negatively-charge particles that are located in the orbitals; positively-charge protons and neutrons (with no charge) reside in the inner core of the atom.
The electrical charge of an atomic nucleus is determined by the number of protons.
Chlorine has 17 protons, so the nuclear charge is +17 esu. The number of neutrons does not affect the nuclear charge (since neutrons have a neutral charge).
The nuclear charge is the term given to the electric charge on the nucleus, and it is simply found by counting the number of protons.
The nuclear particle that has no charge is the neutron.
1.5
Atomic number is the number of protons in the nucleus. The higher the number the higher the nuclear charge
The nuclear charge of a nucleus of P-32 is +32 because the nuclear charge is always the amount of protons in the nucleus.
Chlorine has 17 protons, so the nuclear charge is +17 esu. The number of neutrons does not affect the nuclear charge (since neutrons have a neutral charge).
Zinc has 30 protons; the term "nuclear charge" is rarely used.
The nuclear charge is the term given to the electric charge on the nucleus, and it is simply found by counting the number of protons.
I assume it's an incorrect spelling of "nuclear charge".
Effective nuclear charge is the net charge of an electron in an atom.Z(eff) = Z - S where:Z - atomic numberS - number of shielding electrons
the effective nuclear charge on barium is 2.
It means that nuclear force does not depend on the charge of particles but depends on other properties! :P
The nuclear particle that has no charge is the neutron.
1.5
The Nuclear regulatory commission would be in charge of that
No, that would be a neutron. A proton is a nuclear particle with a mass of 1 AMU and a 1+ charge