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No, it is exothermic.
After combustion water and carbon dioxide are released.
A hydrocarbon and oxygen
It is when you burn Oxygen. Here are equations. Hydrocarbon + Oxygen --> Carbon Dioxide + Water Hydrocarbon + Oxygen --> Carbon Monoxide + Water
It is when you burn Oxygen. Here are equations. Hydrocarbon + Oxygen --> Carbon Dioxide + Water Hydrocarbon + Oxygen --> Carbon Monoxide + Water
Mainly from the exhaust gasses created by the combustion of hydrocarbon-based fuels.
Sulfur dioxide is the product of burning (oxidation) of organosulfur compounds from fossil fuels.
if it is on fire or in a pool with lots of fish eating marshmellows
The products of the hydrocarbon combustion are water and carbon dioxide.
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.
No, it is exothermic.
Hydrocarbon fuels are energy dense, easily transported, relatively cheap.
Hydrocarbon fuels are energy dense, easily transported, relatively cheap.
Combustion
Milosh Nicholas Popovich has written: 'Optimum power and economy fuel-air mixtures for hydrocarbon fuels in internal combustion engines' -- subject(s): Hydrocarbons, Fuel, Internal combustion engines
Combustion clearly is a chemical change. In the combustion of a hydrocarbon, for example, you begin with the hydrocarbon and after combustion you end up with carbon dioxide (CO2) and water (H2O). This demonstrates that a chemical change has taken place.