The ionic formula PbSO4 represents lead(II) sulfate. The subscript "2" indicates that there are two sulfate ions for every lead ion in the compound.
The net ionic equation for potassium sulfate (K2SO4) and lead nitrate (Pb(NO3)2) is: Pb^2+(aq) + SO4^2-(aq) -> PbSO4(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)
Yes, PbSO4 (lead(II) sulfate) is an ionic compound. It is composed of lead cations (Pb^2+) and sulfate anions (SO4^2-), which are held together by ionic bonds.
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(IV) hypocarbonate's chemical formula is Pb(CO3)2. It consists of one lead ion (Pb4+) and two carbonate ions (CO32-) in its structure.
The net ionic equation for potassium sulfate (K2SO4) and lead nitrate (Pb(NO3)2) is: Pb^2+(aq) + SO4^2-(aq) -> PbSO4(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.
Pb(2+) is the cation and (SO4)2- is the anion.
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].
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)
Yes, PbSO4 (lead(II) sulfate) is an ionic compound. It is composed of lead cations (Pb^2+) and sulfate anions (SO4^2-), which are held together by ionic bonds.
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(IV) hypocarbonate's chemical formula is Pb(CO3)2. It consists of one lead ion (Pb4+) and two carbonate ions (CO32-) in its structure.
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 chemical formula for aluminium sulfate is Al2(SO4)3. This compound is an ionic compound made up of aluminium ions (Al3+) and sulfate ions (SO4 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
Gold (III) Sulfate is an extremely unstable compound with the molecular formula Au2(SO4)3 and ionic formula Au3+2 (SO4)2-3.