I predict that an ion of sodium will have a charge of plus one.
The charge of a sodium ion is +1.
The monoatomic sodium ion would have a valence of 1 and a charge of +1.
Well, it would be sodium-83, if it were even remotely possible that such a thing could possibly exist for even an instant. If 83 is a typo and you meant "23", then the answer is the sodium-23 ion.
A sodium ion would have a charge on it, such as a positive charge, a cation, or a negative charge, an anion. Take your charge to be Na+1. This means that sodium is missing one electron, thus having one more proton giving it a positive charge. Na normally has 11 electrons, but this plus one knocks it down to 10. Neon at a neutral charge has 10 electrons. So, a sodium ion and neon atom have the same number of electrons (but only if the Na ion is +1 charge).
positive charge/ Na+
The number of electrons are required to predict the charge of the ion.
2+
Sodium ions have a charge of 1+
The charge of a sodium ion is +1.
The charge of a positive sodium ion is +1 C.
The monoatomic sodium ion would have a valence of 1 and a charge of +1.
Well, it would be sodium-83, if it were even remotely possible that such a thing could possibly exist for even an instant. If 83 is a typo and you meant "23", then the answer is the sodium-23 ion.
Sodium is in group one, chlorine in group 7. This means that a Sodium ion has a charge of +1, and a Chlorine ion has a charge of -1.
The sodium ion (Na+) is a cation (positive charge) and the fluoride ion (F-) is an anion (negative charge).
A sodium ion differs from a sodium atom in that the sodium ion has a missing electron electron. It has a positive charge, as opposed to the atom, which is neutral.
A sodium atom has 11 electrons so the total charge of all the electrons in a sodium ion is -10.
A sodium atom has a net charge of zero. A sodium ion has a net charge of 1+.