Lead has Three type of oxides:
Lead(II) Oxide = PbO (Generally referred)
Lead(IV) Oxide = PbO2
Lead(II,IV) Oxide = Pb3O4
Lead(IV) oxide would have the formula PbO2
PbO2
Lead has Three type of oxides: Lead(II) Oxide = PbO (Generally referred) Lead(IV) Oxide = PbO2 Lead(II,IV) Oxide = Pb3O4
Lead has Three type of oxides: Lead(II) Oxide = PbO (Generally referred) Lead(IV) Oxide = PbO2 Lead(II,IV) Oxide = Pb3O4
The ionic chemical formula of lead(IV) oxide is: (Pb)4+ + 2 O-.
The IV in lead IV oxide means that the lead ion has a 4+ charge. The oxide ion has a 2- charge. The charges must cancel out to zero, so there are 2 oxide ions for every 1 lead IV ion, which is what the formula PbO2 shows.
Lead has Three type of oxides: Lead(II) Oxide = PbO (Generally referred) Lead(IV) Oxide = PbO2 Lead(II,IV) Oxide = Pb3O4
There are several forms of lead oxides: Lead (II) oxide is called lead monoxide (PbO), typically used in manufacture of special glass. Lead (II-IV) oxide is called "red lead" and consists of Pb3O4 ( 2PbO-PbO2 ). Lead dioxide PbO2 is called plumbic oxide, used in dyes and in fireworks. Lead sesquioxide is Pb2O3.
Plumbic oxide, is Lead (IV) oxide. It has the formula of PbO2, which is neutral. However if you wanted to know the oxidation state of the lead, then it is +4.
Lead (IV) Oxide
The chemical formula for tin(IV) oxide is SnO2. Tin(III) oxide doesn't exist.
The chemical formula for tin(IV) oxide is SnO2. Tin(III) oxide doesn't exist.