The positively charged ion is the cation. Negatively charged ions are called anions.
The ionic compound CuS is made from the ions Cu2+ and S2-, therefore the cation, Cu2+ has a charge of +2.
Manganese(III) oxide is considered an ionic compound. In this compound, manganese exists as a cation with a +3 charge, while oxygen is an anion with a -2 charge. The electrostatic attraction between the cation and anion results in the formation of an ionic bond.
The ionic compound name for YClO3 is yttrium chlorate. In this compound, yttrium is a cation with a charge of +3, while chlorate is an anion with a charge of -1. When these ions combine, they form an ionic compound with the formula YClO3.
Copper(I) phosphate is an ionic compound. Copper(I) is a cation with a +1 charge, and phosphate is an anion with a -3 charge. The ionic bonding between these oppositely charged ions results in the formation of an ionic compound.
In an ionic compound, the sum of the cation values is equal to the sum of the anion values. This is because ionic compounds must have a neutral charge overall, which is achieved by balancing the positive charge of the cations with the negative charge of the anions.
Lead (IV) chloride is an ionic compound. Lead (IV) cation has a 4+ charge, while chloride ion has a 1- charge, so they combine to form an ionic compound with a formula of PbCl4.
An ionic compound contain a cation and an anion.
The ionic name of Zn3P2 is zinc phosphide. In this compound, zinc (Zn) is the cation with a charge of +2, and phosphorus (P) is the anion with a charge of -3.
The charge on the cation in barium sulfide is +2, as barium is in Group 2 of the periodic table and typically forms cations with a 2+ charge.
When you mix a metal cation with a nonmetal anion, they will form an ionic compound through ionic bonding. The metal cation will donate electrons to the nonmetal anion, resulting in the formation of a stable compound with a neutral charge. This compound will have a crystal lattice structure and exhibit properties different from those of the individual elements.
Roman numerals are used to represent the charge of the cation in an ionic compound. The Roman numeral is placed in parentheses after the name of the cation to indicate its charge. For example, in Fe(NO3)2, the Fe cation has a +2 charge, so it is written as iron(II).
The ionic compound name for BaCO3 is barium carbonate. Barium is the cation with a 2+ charge, while carbonate is the anion with a 2- charge.