You take an electron from an atom, or force one into it
This formula is itself an ion with -2 charge. It has 2 carbon atoms and 4 oxygen atoms per ion. An oxalate ion has six atoms.
A polyatomic ion is held together by covalent bonds between atoms. They can be either positive or negative. For example, the ammonium ion, NH4+, has a positive charge, and the sulfate ion, SO42-, has a negative charge.
The hydroxide ion, OH-, has a negative charge of 1-.
The ion with the formula SO4 and a -2 charge is called sulfate ion. It consists of one sulfur atom and four oxygen atoms with a total charge of -2.
An ion is a particle that carries a charge, either positive or negative, due to losing or gaining electrons. It can be a single atom or a group of atoms that have an overall charge. A molecule is a group of atoms held together by chemical bonds and may or may not carry a charge.
the atoms make up carbonate ion and its charge its 4+.
An ion is an atom (or group of atoms) with an electrical charge.
The algebraic sum of the oxidation numbers of all atoms in a polyatomic ion is equal to the overall charge of the ion.
The number of atoms in an ion depends on the type and charge of the ion. An ion is an atom that has gained or lost electrons, resulting in a positive or negative charge. Ions can consist of one or multiple atoms bonded together.
This formula is itself an ion with -2 charge. It has 2 carbon atoms and 4 oxygen atoms per ion. An oxalate ion has six atoms.
No, an ion does not have a neutral charge. Ions are atoms or molecules that have gained or lost electrons, resulting in a positive or negative charge.
The nitrate ion (NO3-) has a larger negative charge because it has three oxygen atoms with a charge of -2 each, giving a total charge of -1 for the ion. The nitrite ion (NO2-) has two oxygen atoms with a charge of -2 each, resulting in a total charge of -1 for the ion.
A polyatomic ion is held together by covalent bonds between atoms. They can be either positive or negative. For example, the ammonium ion, NH4+, has a positive charge, and the sulfate ion, SO42-, has a negative charge.
The charge of a silicate ion is typically -4. This is because silicon generally has a 4+ charge, and it bonds with oxygen atoms which each have a 2- charge. This results in a net charge of -4 for the silicate ion.
The hydroxide ion, OH-, has a negative charge of 1-.
To find the oxidation number or charge of a polyatomic ion, consider the known charges of the individual atoms within the ion. For example, in the sulfate ion (SO4)2-, oxygen typically has an oxidation number of -2, and sulfur would then have an oxidation number to balance the charge of the ion. The sum of the oxidation numbers of all the atoms in the ion should equal the overall charge of the ion.
The charge on the copper ion in CuF2 is +2. This is because fluorine typically has a charge of -1, and there are two fluorine atoms in the compound which balances out the charge of the copper ion.