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Copper Carbonate when heated decomposes to give copper oxide and carbon dioxide.
They form magnesium oxide, copper oxide etc. and will form carbon dioxide as a byproduct.
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.
Here are the equations for the thermal decomposition of copper carbonate (notice that a metal oxide is formed, just as it was with calcium carbonate): Copper carbonate → copper oxide + carbon dioxide CuCO3 → CuO + CO2
A thermal decomposition reaction occur:CaCO3 = CaO + CO2
DECOMPOSITION
The thermal decomposition in this case is: CuCO3 -------------CuO + CO2
Copper.
Black
yes
Copper Carbonate when heated decomposes to give copper oxide and carbon dioxide.
It decomposes to form copper oxide and carbon dioxide. It is an endothermic reaction, which means it absorbs heat (as all decomposition reactions do). This is the chemical equation of the reaction: CuCO3 ----> CuO + CO2
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.
when carbonate is heated lyperdermus thiosulfate kindogranite maglesemium magnesium gindopickranate is formed.
They form magnesium oxide, copper oxide etc. and will form carbon dioxide as a byproduct.
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.
Either sodium carbonate or copper carbonate