Lead has two oxidation states (+4 and +2). As a result, there are two compounds composed of lead and sulfate: lead(IV) sulfate, which is Pb(SO4)2, and lead(II) sulfate, which is PbSO4.
Lead sulfate is not soluble in water.
The chemical compound Pb(SO4)2 is also called lead(IV)sulfate.
lead IV chlorate
Lead has two oxidation states (+4 and +2). As a result, there are two compounds composed of lead and sulfate: lead(IV) sulfate, which is Pb(SO4)2, and lead(II) sulfate, which is PbSO4.
The name of this compound is Pb(IV) sulfite or lead disulfite.
Lead has two oxidation states (+4 and +2). As a result, there are two compounds composed of lead and sulfate: lead(IV) sulfate, which is Pb(SO4)2, and lead(II) sulfate, which is PbSO4.
Lead has two oxidation states (+4 and +2). As a result, there are two compounds composed of lead and sulfate: lead(IV) sulfate, which is Pb(SO4)2, and lead(II) sulfate, which is PbSO4.
Lead sulfate is not soluble in water.
Lead sulfate is not soluble in water.
Lead(II) sulfate has the chemical formula PbSO4. Pb(IV) is not known.
The chemical compound Pb(SO4)2 is also called lead(IV)sulfate.
lead IV chlorate
Lead has two oxidation states (+4 and +2). As a result, there are two compounds composed of lead and sulfate: lead(IV) sulfate, which is Pb(SO4)2, and lead(II) sulfate, which is PbSO4.
The common name is lead sulfate. In this compound, Pb ion is in +4 oxidation status. Therefore the systematic name is Lead(IV) Sulfate(VI).
The systematic name of this compound is Lead(II) Sulfate(VI), and the common name is lead sulfate.
Lead (II) iodide Transition metals always need roman numerals to represent their charges.