Copper doesn't react with carbon dioxide at room temperature.
copper carbonate = CuCO3
copper oxide = CuO
carbon dioxide = CO2
CuCO3 + heat ---> CuO + CO2
Decomposition Reaction
copper monoxide
CuCO3(s) = CuO(s) + CO2(g)
CuCO3 is bluish-greenish-white. If it is heated to a high enough temperature, it will decompose into Carbon Dioxide and Copper II Oxide, which is black.
The carbon will react with the oxygen in the copper oxide, forming carbon dioxide and leaving behind the copper.
Carbonate by itself is an ion that does not contain copper and therefore could not produce copper if heated. However, because carbonate is a negatively charged ion, no substantial number of carbonate ions can exist stably except in association with an equal number of positively charged cations to neutralize the electrical charge of the carbonate ions. If these cations are cations of copper, then copper oxide can be produced by heating the copper carbonate salt.
Copper oxide and hydrochloric acid will produce copper chloride.
decomposition
Copper carbonate is green when in its original form. However, when heated, it typically turns black due to the decomposition of copper carbonate into copper oxide and carbon dioxide.
It is possible for carbon dioxide and copper oxide to encourage a reaction to take place due to thermal composition. When calcium carbonate is heated, it decomposes and generates carbon dioxide and copper oxide.
Well, what I've heard, copper oxide and carbon at high temperature will make copper metal and CO2: CuO2 + C = Cu + CO2
Iron forms a black oxide called iron(II,III) oxide, commonly known as black rust, when heated in the presence of oxygen.
When hydrogen gas passed over heated cupric oxide, the hydrogen is oxidized and displaces copper from the copper oxide as metallic copper, because hydrogen is higher than copper in the electromotive series. Water vapor is also produced by the reaction.
They form magnesium oxide, copper oxide etc. and will form carbon dioxide as a byproduct.
CuCO3 is bluish-greenish-white. If it is heated to a high enough temperature, it will decompose into Carbon Dioxide and Copper II Oxide, which is black.
When magnesium carbonate is heated, it decomposes into magnesium oxide and carbon dioxide gas. This reaction is a thermal decomposition reaction that occurs at high temperatures. The magnesium oxide produced is a white solid, while the carbon dioxide gas is released into the air.
When copper oxide reacts with carbon, a reaction takes place in which carbon reduces copper oxide to copper metal. The chemical equation for this reaction is: CuO + C -> Cu + CO
When CuCO3 is heated, it decomposes into copper(II) oxide (CuO) and carbon dioxide (CO2) gas. This is a decomposition reaction where the solid CuCO3 breaks down into a solid and a gas when heated.
The carbon will react with the oxygen in the copper oxide, forming carbon dioxide and leaving behind the copper.
Yes, copper oxide decomposes when heated to high temperatures, typically above 800°C, into copper and oxygen. This process is a thermal decomposition reaction.