of course it does
ion
The number of neutrons in an aluminum ion can vary depending on the isotope. The most common isotope of aluminum is 27Al, which has 14 neutrons. However, other isotopes of aluminum exist with different numbers of neutrons.
A nitride ion (N³⁻) has a charge of -3, meaning it has three more electrons than protons. Nitrogen has 7 protons in its nucleus, so the nitride ion has 7 protons and 10 electrons. The number of neutrons can vary depending on the isotope, but the most common isotope of nitrogen has 7 neutrons, giving a total of 7 protons, 10 electrons, and 7 neutrons in a nitride ion.
In one atom of cobalt ion, the number of neutrons can vary based on the isotope. The most common isotope of cobalt is cobalt-59, which has 33 neutrons.
A titanium ion
The hydrogen ion H+ has no neutrons.
An Mg2+ ion is a magnesium ion that has a charge of +2, meaning it has lost 2 electrons. The number of neutrons in an Mg2+ ion is the same as in a regular magnesium atom, which is 12 neutrons.
Li-6 has 3 neutrons and Li-7 has 4 neutrons.
The symbol for the ion with 8 protons, 9 neutrons, and 10 electrons is ^17O.
The ion with 52 protons, 76 neutrons, and 54 electrons is the ion of element tellurium (Te) with a charge of +2. The number of protons determines the element, the number of neutrons can vary in isotopes, and the number of electrons determines the charge of the ion.
Li-6 has 3 neutrons and Li-7 has 4 neutrons.
If the number of protons and neutrons are the same, its an atom, if not its an ion
ion
Sodium has 12 neutrons. Chloride ion has 18 neutrons. In a formula unit, NaCl has 30 neutrons.
The number of neutrons in an aluminum ion can vary depending on the isotope. The most common isotope of aluminum is 27Al, which has 14 neutrons. However, other isotopes of aluminum exist with different numbers of neutrons.
The charge of a sodium ion with 11 protons is +1, since it has one more proton than electrons. The number of neutrons does not affect the charge of an ion.
There are 10 neutrons in the ion 18O2. This is calculated by subtracting the atomic number of the oxygen ion (8) from its mass number (18), as neutrons are equal to the difference between these two values.