I think it makes carbon monoxide
The heats of combustion of a compound are related to its stability. Compounds with higher heats of combustion are generally less stable because they release more energy when they react with oxygen. This means they are more likely to undergo combustion reactions and are less stable compared to compounds with lower heats of combustion.
Nitrogen itself does not undergo combustion reactions as it is chemically stable. However, nitrogen in compounds can participate in combustion reactions, where it typically forms nitrogen oxides as products.
When a cookie gets burnt, the particles undergo a chemical reaction called combustion, where the organic compounds in the cookie break down and release energy in the form of heat and light. The carbon in the cookie combines with oxygen in the air to form carbon dioxide and other combustion byproducts.
When materials are burned in the air, they undergo a chemical reaction called combustion resulting in the formation of new compounds such as carbon dioxide, water, and ash. The specific compounds formed depend on the material being burned and the conditions of the combustion process.
Carbon dioxide is a product of combustion. It cannot undergo combustion.
Fossil fuels are naturally occurring compounds that undergo combustion, releasing energy in the form of heat and light when burned. This energy is harnessed and used for various purposes, such as heating, electricity generation, and transportation.
The lowest flame temperature required for a substance to undergo combustion is called the ignition temperature.
No, actually sodium chloride can be considered the "ash" of burning metallic sodium in a chlorine gas atmosphere. The ash of combustion will not undergo further combustion.
There are many gases including chlorine and ammonia which can spontaneously undergo combustion.
Aliphatic compounds, which include alkanes, alkenes, and alkynes, typically have a higher hydrogen-to-carbon ratio compared to aromatic compounds. When burned, they tend to undergo more complete combustion, producing carbon dioxide and water as the main products. This complete combustion results in a clean, non-sooty flame, as there is minimal formation of carbon particulates. In contrast, aromatic compounds often produce soot due to their structure and lower hydrogen content, which leads to incomplete combustion.
Compounds do not undergo electrolysis because electrolysis is the process of using an electric current to decompose a compound into its constituent elements. Compounds are already in a stable form, so they do not break down into their component elements without an external source of energy, such as an electric current.
Both ethane and ethene can undergo combustion reactions to produce carbon dioxide and water. They can also undergo halogenation reactions with halogens such as chlorine or bromine to form halogenated hydrocarbons. Additionally, they can undergo polymerization reactions to form longer chain hydrocarbons or polymers.