Mo2(CO3)3
The formula for cobalt (III) carbonate is Co2(CO3)3.
gallium (III) carbonate - Ga2(CO3)3 gallium (III) oxide - Ga2O3
Co2(CO3)3.5H20
Iron (II) Carbonate
Co2(CO3)3The chemical formula of cobalt(III) carbonate [not cobalt(111)] is Co2(CO3)3.
The formula for cobalt (III) carbonate is Co2(CO3)3.
gallium (III) carbonate - Ga2(CO3)3 gallium (III) oxide - Ga2O3
Fe(HCO3)3
Molybdenum (IV) phosphate's formula is: Mo3(PO4)4 Molybdenum (IV) has four valence electrons, which it will lose, being a metal. The phosphate polyatomic ion, PO4, needs three electrons. In order for the charges to cancel each other out, you need 3 Mo's and 4 phosphates, which you apply with the subscripts shown above.
Fe+3 CO3-2
Co2(CO3)3.5H20
MoPO4 is the formula for Molybdenum Phosphate with the Mo in oxidation state III. Mo can have multiple oxidation states. H3PMo12O40 is phosphomolybdic acid - see more information on this species at the related link.
Iron (II) Carbonate
Well antimony carbonate if it exists would contain Sb3+ ions and CO32- ions-- to balance the charge the formula owuld be Sb2(CO3)3
Co2(CO3)3The chemical formula of cobalt(III) carbonate [not cobalt(111)] is Co2(CO3)3.
I'm sure that you cannot have the formation of Iron (iii) carbonate due to it's strong acidic nature, however when we have iron(iii)hexa-aqua ions and add some carbonate, which acts as a base, we form iron(II) carbonate. FeCO3. This is just what I have learnt feel free to challenge or correct me anyone.
FeF3