When lead oxide is heated with carbon, carbon dioxide and lead are formed as the products
2PbO+C -->CO2+2Pb
lead oxide + carbon-> lead + carbon dioxide
1,4 moles of lead(II) oxide are formed.
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.
when it reacts with leadoxide it become magnesuim oxide. this is because they lead and magnesuim have undergone a REDOx (reduction and Oxidation). the lead has been reduced and they magnesium has be oxidised!!!!!
Lead Monoxide
lead oxide + carbon-> lead + carbon dioxide
Lead can be extracted from lead oxide through a reduction reaction. When lead oxide is heated in the presence of carbon (typically in the form of coke), carbon reduces the lead oxide to produce lead metal and carbon dioxide gas. This reaction allows the lead to be separated from the oxide compound.
1,4 moles of lead(II) oxide are formed.
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.
No.Lead (ii) carbonate --> lead (ii) oxide + carbon
When carbon reacts with lead oxide, it produces lead metal and carbon dioxide as byproduct.
lead oxide
When lead carbonate is heated, it undergoes thermal decomposition to form lead oxide and carbon dioxide gas. The chemical equation for this reaction is: PbCO3(s) -> PbO(s) + CO2(g).
Heating carbon with lead oxide will result in the production of lead metal. This is a common reduction reaction where carbon acts as a reducing agent to convert lead oxide into lead metal.
When lead nitrate crystals are heated, they undergo a decomposition reaction, releasing nitrogen dioxide gas, oxygen gas, and leaving behind lead(II) oxide as a residue. This reaction can be represented by the equation: 2Pb(NO3)2(s) → 2PbO(s) + 4NO2(g) + O2(g).
The reduction of lead oxide with carbon to produce lead is an exothermic reaction. This is because energy is released in the form of heat during the formation of lead from lead oxide and carbon.
it explodes