Both of these are oxides (of carbon and iron respectively).
A gas as carbon dioxide is easily expanded by heating; hydrogen peroxide is decomposed.
For example methane gas; after burning carbon dioxide and water are released.
False. When iron ore is heated in a blast furnace, the primary products are molten iron and slag, rather than pure iron and carbon dioxide. The carbon from coke reacts with the oxygen in the iron ore (primarily iron oxide) to produce carbon dioxide and molten iron, but the iron produced typically contains impurities and is not pure iron. Further refining processes are needed to obtain pure iron.
The cause of iron rust is oxygen and water.
If you take iron ore, which is iron oxide, and heat it with coal (carbon) you end up with Iron and carbon dioxide. This process is called reducing. This works for most common metals like iron and copper but does not work for aluminium. This must be reduced by electrolysis because it is too reactive for carbon. There are some other limited processes for reducing of ores of rarer metals.
Iron oxide carbon makes iron and carbon dioxide through a chemical reaction known as reduction. Iron oxide, or rust, reacts with carbon to produce iron metal and carbon dioxide gas. This process is commonly used in the production of iron and steel.
Iron oxide + carbon monoxide -> iron + carbon dioxide
The formula for iron (III) oxide is Fe2O3 and the formula for carbon dioxide is CO2. Therefore, the combined formula for iron (III) oxide and carbon dioxide is 2Fe2O3 + 3CO2, which indicates the reaction between them or the product formed.
There are two equations, the first to describe how the carbon reacts with the oxygen in the air,Carbon + Oxygen ---- Carbon Monoxideor2C + 02 ---- 2COThe second describes how the carbon monoxide reacts with the iron oxide forming carbon dioxide and pure iron,Carbon Monoxide + Iron Oxide ---- Iron + Carbon Dioxideor3 CO + Fe2O3 ---- 2 Fe + 3 CO2Another might beiron oxide + carbon --> carbon dioxide + iron
moss Carbon dioxide
A gas as carbon dioxide is easily expanded by heating; hydrogen peroxide is decomposed.
For example methane gas; after burning carbon dioxide and water are released.
Carbon monoxide reacts with iron oxide to produce iron and carbon dioxide in a process known as reduction.
Carbon iron oxide - oxygen = carbon dioxide
The word equation for the reaction between iron oxide (Fe2O3) and carbon monoxide (CO) is: iron oxide + carbon monoxide → iron + carbon dioxide. In this reaction, iron oxide is reduced to iron, while carbon monoxide is oxidized to carbon dioxide. The balanced chemical equation for this reaction is: Fe2O3 + 3CO → 2Fe + 3CO2.
carbon dioxide Iron and Oxide form rust
carbon dioxide