2+
Lead nitrate is an ionic compound. Lead has a 2+ charge and nitrate has a 1- charge, so they attract each other through ionic bonds, where electrons are transferred from lead to nitrate.
The systematic name of this compound is Lead(II) Sulfate(VI), and the common name is lead sulfate.
Lead carbonate is a neutral compound it contains Pb+2 and CO3-2 ions.
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.
PbCl4 is an ionic compound. Lead (Pb) has a 2+ charge while chlorine (Cl) has a 1- charge, resulting in a net charge of 2+ for the compound. This electrostatic attraction between the positively charged lead ion and the negatively charged chloride ions creates an ionic bond.
Lead nitrate is an ionic compound. Lead has a 2+ charge and nitrate has a 1- charge, so they attract each other through ionic bonds, where electrons are transferred from lead to nitrate.
The systematic name of this compound is Lead(II) Sulfate(VI), and the common name is lead sulfate.
Lead carbonate is a neutral compound it contains Pb+2 and CO3-2 ions.
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.
Oxygen has a charge of -2, so the oxidation number of lead is Pb+2
PbCl4 is an ionic compound. Lead (Pb) has a 2+ charge while chlorine (Cl) has a 1- charge, resulting in a net charge of 2+ for the compound. This electrostatic attraction between the positively charged lead ion and the negatively charged chloride ions creates an ionic bond.
The ionic compound formed by lead(II) sulfite is PbSO3. Lead(II) ions have a +2 charge, and sulfite ions have a -2 charge. Thus, they combine in a 1:1 ratio to form the compound PbSO3.
Phosphite has an ionic charge of -3.
PbBr2 is lead(II) bromide sometimes called plumbous bromide. PbBr does not exist.,
Lead can exist in several different ionic forms depending on the conditions. The most common ionic form of lead is Pb2+, which is the most stable oxidation state of lead. Lead can also exist in other oxidation states such as Pb4+ and Pb+.
The chemical formula is PbI4.Pb(4+) + 4 I-
The ionic charge of stannous (tin) is typically +2.