Ag is going to exist in nature as Ag2--no doubt about it.
The actual reaction with carbonate is
2AgNO3 (silver nitrate) + Na2CO3 (sodium carbonate) = Ag2CO3 (silver carbonate) plus NaNO3.
For some reason you get elemental silver out of this too--which you shouldn't because it's a balanced equation, but Ag2CO3 is yellowish and it's normally got gray flecks in it when you get it.
Silver = Ag+1 Carbonate = CO3-2 Formula is: Ag2(CO3)
CO3++ Ion has 20electrons.
Carbonic acid(H2CO3/H(CO3)2
Ca (2+) + CO3 (2-) --> CaCO3
CO3 does not exist.
Silver = Ag+1 Carbonate = CO3-2 Formula is: Ag2(CO3)
Silver = Ag+1 Carbonate = CO3-2 Formula is: Ag2(CO3)
CO3++ Ion has 20electrons.
Silver has a charge of 1+ and CO3 has a charge of 2-, compounds must have charges of 0. (1+)+(1+)+(2-)=0, therefore, you get Ag2CO3. Hope this helps.
Carbonic acid(H2CO3/H(CO3)2
Potassium carbonate.
Ca (2+) + CO3 (2-) --> CaCO3
Carbonic acid, H2CO3
It's true, the carbonate radical, CO3 contains the elements carbon and oxygen.
CO3 does not exist.
The chemical equation is:Al2(CO3)3 + 3 ZnCl2 = 2 AlCl3 + 3 ZnCO3
Mn (CO3)2 numbers must be in subscript.