As the volume of a given gas sample is dependent on its temperature and pressure; to find a volume of any gas which does exist, the temperature and the pressure of the system/vessel should be given directly or could be calculated.
Copper carbonate is a solid compound at room temperature.
When copper carbonate decomposes, it produces carbon dioxide gas along with copper oxide as a residue.
Copper carbonate and sulfuric acid react to produce copper sulfate, carbon dioxide gas, and water.
Sulfuric acid and copper carbonate react to produce copper sulfate, carbon dioxide gas, and water.
When water is added to copper carbonate, a chemical reaction occurs where the water reacts with the copper carbonate to form copper hydroxide and carbon dioxide gas. The copper hydroxide is a solid that can be separated from the mixture, while the carbon dioxide gas will escape into the atmosphere.
carbon dioxide [CuCO3 --> CuO + CO2]
When copper carbonate is heated, it decomposes into copper oxide, releasing carbon dioxide gas. The remaining ionic compound is copper oxide (CuO).
When copper carbonate is heated, a thermal decomposition reaction occurs. This reaction causes copper carbonate to break down into copper oxide and carbon dioxide gas, which is released as a byproduct.
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.
Heating copper carbonate causes it to decompose into copper oxide, carbon dioxide, and oxygen. When the carbon dioxide gas escapes, the overall mass of the compound decreases, resulting in a lower mass of copper carbonate after heating.
NO!
No.