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It depends ~ if it's copper(I), then the formula is Cu2CO3, but if it's copper(II), the the formula is CuCO3

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14y ago

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What is the chemical formula of copper (I) carbonate?

The chemical formula of copper (I) carbonate is Cu2CO3.


What is the chemical formula of copper (ii) carbonate?

The chemical formula of copper (II) carbonate is CuCO3.


What does copper carbonate have?

The chemical formula of copper carbonate is considered to be Cu(OH)2CO3.


Which compounds make up copper carbonate?

Copper(II) Carbonate (or Cupric Carbonate) is made up of Copper ions, and Carbonate ions. The coppers have a +2 charge, and carbonate has a -2 charge. The formula is Cu(II)CO3


Compound for copper carbon and oxygen?

The compound you are referring to is copper carbonate, which has the chemical formula CuCO3. It is also known as copper(II) carbonate and is commonly found in nature as the mineral malachite.


What compound will be formed between copper ion and carbonate ion?

Copper and carbonate ions form copper carbonate. In practice, copper carbonate usually contains hydroxide ions as well.


Formula copper II carbonate?

Cu(HCO3)2 (numbers should be in subscript) Also called copper hdryogencarbonate valance -1


What is the chemical formula for copper (I) carbonate?

Copper carbonate is CuCO3 (copper(II) carbonate)


What is the chemical formula for copper (l) carbonat?

Copper(I) carbonate is Cu2CO3.


Chemical formulae of copper corbonate?

I think your looking for the "Molecular formula" of "Copper Carbonate". It is CuCO3 and Cu(OH)2 in basic form, or Copper Carbonate in Azurite form is Cu3(CO3)2(OH)2


What type of substance is copper?

Copper carbonate is a chemical substance, also called Cupric carbonate. The molecular formula is CuCO3. Copper carbonate decomposes at high temperatures, giving off carbon dioxide and leaving copper(II) oxide.


What is the composition of copper carbonate?

Copper carbonate is a chemical substance, also called Cupric carbonate. The molecular formula is CuCO3. Copper carbonate decomposes at high temperatures, giving off carbon dioxide and leaving copper(II) oxide.