if it is on fire or in a pool with lots of fish eating marshmellows
Hydrogen, carbon, and oxygen
When a hydrocarbon undergoes incomplete combustion, the primary products formed are carbon monoxide (CO) and soot (carbon particles), along with water (H₂O). Unlike complete combustion, which produces carbon dioxide (CO₂) as the main byproduct, incomplete combustion results in the release of harmful pollutants such as carbon monoxide, which is toxic. This type of combustion typically occurs when there is insufficient oxygen available for the reaction.
The general chemical equation for the complete combustion of a hydrocarbon is: Hydrocarbon + O2 -> CO2 + H2O For example, the combustion of methane (CH4) can be represented as: CH4 + 2O2 -> CO2 + 2H2O
Carbon dioxide, Water Vapor, and Heat
The complete combustion of a hydrocarbon would give carbon dioxide and water as the only products.
The complete combustion of a hydrocarbon would give carbon dioxide and water as the only products.
The burning of petrol in cars is typically an example of complete combustion where petrol (hydrocarbon) reacts with oxygen to produce carbon dioxide and water. However, in some cases, incomplete combustion can occur, leading to the production of carbon monoxide, particulate matter, and unburnt hydrocarbons due to insufficient oxygen supply or improper engine functioning.
The general equation for the complete combustion of a hydrocarbon fuel such as fossil fuels is: hydrocarbon + oxygen → carbon dioxide + water For example, the complete combustion of methane (CH4) would be: CH4 + 2O2 → CO2 + 2H2O.
Carbon monoxide is formed during the burning of a hydrocarbon when there isn't enough oxygen present for complete combustion. Incomplete combustion of hydrocarbons can lead to the formation of carbon monoxide instead of carbon dioxide. It is a toxic gas and can be harmful to human health when inhaled.
Carbon monoxide is produced during incomplete combustion of any hydrocarbon or fossil fuel. Adding oxygenates (molecules containing oxygen) to the fuel and maintaining the proper air/fuel ratio can reduce the amount of carbon monoxide generated.
In complete combustion, all the reactants will be converted into carbon dioxide and water. In incomplete combustion, some of the reactants will be converted to carbon dioxide, some will become carbon monoxide, and some may not react at all. Quite often incomplete combustion will result in a "sooty" flame.
Yes, more oxygen is used in incomplete combustion compared to complete combustion because incomplete combustion results in the partial burning of the fuel, leading to the formation of more byproducts like carbon monoxide and soot. This requires additional oxygen to combine with these byproducts, using up more oxygen overall.