It depends ~ if it's copper(I), then the formula is Cu2CO3, but if it's copper(II), the the formula is CuCO3
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
Copper carbonate is CuCO3 (copper(II) carbonate)
Cu(HCO3)2 (numbers should be in subscript) Also called copper hdryogencarbonate valance -1
copper (I) oxalate Always write formulas with lower case letters.
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.
The chemical formula of copper carbonate is considered to be Cu(OH)2CO3.
Copper(I) carbonate is Cu2CO3.
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
Copper carbonate is CuCO3 (copper(II) carbonate)
The number of atoms in one formula unit of the more common type of copper carbonate, which has the formula CuCO3, is 5: 3 oxygen atoms and 1 each of copper and carbon.
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.
Cu(HCO3)2 (numbers should be in subscript) Also called copper hdryogencarbonate valance -1
Yes, azurite is a copper carbonate with the formula Cu3(CO3)2(OH)2.
Copper Carbonate.
copper(II) carbonate or cupric carbonate
copper (I) oxalate Always write formulas with lower case letters.
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.