The charge of lead (Pb) can vary depending on the compound it is in. Common charges for lead include +2 and +4.
Pb is in the p block. It forms Pb+2 ion.
Lead's ionic charge is variable. It is either +2 or +4 depending on the properties of the anions. These charges can also be referred to as "common ionic charge". Example of Pb+2 ionic charge: Lead(II) phosphide Pb+2 and P-3 Pb3P2 Example of Pb+4 ionic charge: Lead(IV) Sulfate Pb+4 and (SO4) -2 Pb2(SO4)4 simplified -> Pb(SO4)2
Pb(OH)4 Hydroxide ion has a charge of -1. Since the lead has a charge of +4, you need four hydroxide ions to keep the compound stable
Pb which is neutral has 82 electrons. Thus, if it has a 4+ charge, then it has 78 electrons.
The ionic charge of lead (Pb) in the compound PbS2 is +2. Lead typically has a charge of +2 when it forms ionic compounds.
The charge of the Pb ion can be either +2 or +3.
+2
Pb is in the p block. It forms Pb+2 ion.
Here lead is the cation Pb(2+).
The formula for Plumbic carbonate is Pb(CO3)2 because the higher charge of lead has a charge of 4+ and CO3 has a charge of 2-, therefore the charges would diagonally switch and then be reduced to the simplest whole-number ratio.
Lead's ionic charge is variable. It is either +2 or +4 depending on the properties of the anions. These charges can also be referred to as "common ionic charge". Example of Pb+2 ionic charge: Lead(II) phosphide Pb+2 and P-3 Pb3P2 Example of Pb+4 ionic charge: Lead(IV) Sulfate Pb+4 and (SO4) -2 Pb2(SO4)4 simplified -> Pb(SO4)2
Pb(OH)4 Hydroxide ion has a charge of -1. Since the lead has a charge of +4, you need four hydroxide ions to keep the compound stable
Pb which is neutral has 82 electrons. Thus, if it has a 4+ charge, then it has 78 electrons.
Pb + CrCl2 = PbCl2 + Cr considered a redox single replacement and the Cr has a +2 charge so we assume the Pb also has a +2 because it is a transition metal
The charge of the lead ion in the compound lead phosphate, Pb3(PO4)2, is 2+.
The ionic charge on lead carbonate is +2. Lead has a charge of +2 and carbonate (CO3) has a charge of -2, so when combined in lead carbonate, the overall charge is 2+.
Oxygen has a charge of -2, so the oxidation number of lead is Pb+2