If this compound exists the formula would be Pb(CO)2.
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
2[SO4]-(aq)+3Pb+4(aq)->Pb[SO4]2 (s)
First you'd get Pb2(SO3)2 but that's not entirely correct because the charge of Lead and Sulfite are both +2 and -2 respectively, so they'd cancel/simplify to: Pb(SO3)
The compound is lead sulfide.
If this compound exists the formula would be Pb(CO)2.
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
2[SO4]-(aq)+3Pb+4(aq)->Pb[SO4]2 (s)
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 simplest Gold Sulfate compound is Gold (II) Sulfate AuSO4, ionic formula Au2+ SO42-. There also exists a very unstable Gold (III) Sulfate Au2(SO4)3, ionic formula Au3+2 (SO4)2-3. Additionally, gold forms a number of quite complex sulfate structures such as (a) the Gold (III) Sulfate ion[Au(S04)2]1-, ionic formula [Au3+ (SO4)2-2]1- (b) the Auryl Sulfate compound AuOHSO4, ionic formula Au3+ (OH)1- (SO4)2- (c) the infinite sheet stack described by the formula [(Au2)(SO4)4/2], ionic formula [(Au4+2) (SO4)2-4/2].
Pb(2+) is the cation and (SO4)2- is the anion.
First you'd get Pb2(SO3)2 but that's not entirely correct because the charge of Lead and Sulfite are both +2 and -2 respectively, so they'd cancel/simplify to: Pb(SO3)
Gold (III) Sulfate is an extremely unstable compound with the molecular formula Au2(SO4)3 and ionic formula Au3+2 (SO4)2-3.
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.
The compound is lead sulfide.
The ionic equation would usually be written as: Pb+2 (aq) + SO4-2 (aq) -> PbSO4 (s)
AnswerThese substances react by double displacement. Pb(NO3)2(aq) + K2SO4(aq) = PbSO4(s) + 2KNO3(aq)The Lead(II) Sulphate formed (i.e. PbSO4(s)) is obtained as a white precipitat. Potassium Nitrate solution (KNO3(aq)) is colourless.