The word equation for the reaction between iron oxide and carbon to produce iron is: Iron oxide + Carbon → Iron + Carbon dioxide. In this reaction, iron oxide (often in the form of iron(III) oxide or Fe2O3) is reduced by carbon, resulting in the formation of elemental iron and carbon dioxide as a byproduct. This process is commonly utilized in metallurgy, particularly in the extraction of iron from its ores.
Carbon is used to extract lead from lead oxide because it acts as a reducing agent in the smelting process. When carbon is heated with lead oxide (PbO), it reacts to form carbon dioxide (CO2) and lead (Pb), effectively reducing the lead oxide to elemental lead. This process is thermodynamically favorable and economically viable, making carbon a practical choice for extracting lead in metallurgical operations.
This equation is 2 Mg + CO2 -> 2 MgO + 2 C.
Calcium carbonate heated to form calcium oxide and carbon dioxide as shown by the equation CaCO3(s) → CaO(s) + CO2(g).
Calcium carbonate is heated to from calcium oxide and carbon dioxide as illustrated by the chemical equation CaCO3(s) ===> CaO(s) + CO2(g).
Carbon + Copper oxide -> Copper + Carbon dioxide
The half equation for the reduction of copper oxide by carbon is: CuO + C -> Cu + CO
The balanced equation for the reaction between copper oxide (CuO) and carbon (C) is: CuO + C → Cu + CO
Roasting is a process of heating an ore in the presence of oxygen to remove volatile impurities and convert the ore into an oxide, while smelting involves heating the ore with reducing agents such as carbon to extract the metal from its ore. Roasting is usually done for sulfide ores, while smelting is done for oxide ores. In roasting, the product is an oxide, whereas in smelting, the product is the pure metal.
If the reduction involves carbon getting oxidized, it would be... Zinc oxide + carbon -----------> Zinc + carbon monoxide that's ZnO + C ----------> Zn + CO or if the reduction involves carbon monoxide getting oxidized, it would be... Zinc oxide + carbon monoxide -----------------> Zinc + carbon dioxide that's ZnO + CO ----------> Zn + CO2
Iron oxide + carbon monoxide -> iron + carbon dioxide
The word equation for the reaction between iron oxide and carbon to produce iron is: Iron oxide + Carbon → Iron + Carbon dioxide. In this reaction, iron oxide (often in the form of iron(III) oxide or Fe2O3) is reduced by carbon, resulting in the formation of elemental iron and carbon dioxide as a byproduct. This process is commonly utilized in metallurgy, particularly in the extraction of iron from its ores.
When sodium carbonate is heated, it decomposes into sodium oxide and carbon dioxide. The word equation for this reaction is: Sodium carbonate → Sodium oxide + Carbon dioxide.
Zinc Oxide(aqeous) + Carbon(solid) -> Zinc(g) + Carbon Monoxide(g) ZnO + C -> Zn + CO - this is also balanced equation.
Yes, copper can be extracted from its compounds using carbon through a process called smelting. The carbon reduces the copper oxide to metal, forming carbon dioxide as a byproduct. This process is commonly used in the extraction of copper from ores such as copper oxide.
When malachite is heated, it decomposes into copper(II) oxide and carbon dioxide. The word equation for this reaction is: Copper(II) carbonate (malachite) → Copper(II) oxide + Carbon dioxide.
Well, im guessing that the reaction between the two will be >> copper oxide + carbon (arrow) carbon oxide + copper.