Complete oxidation of alkanes by oxygen yeilds carbon dioxide and water. Alkanes oxidation by O2, (CxH2x+2) + O2 = x CO2 + x+1 H2O. With Halogens it would be CyH2y+2 + X2 = CyX2y+2 + (y+2) HX. Carbon Carbon bonds often do not break in halogen oxidation. "often"
Alkenes, like alkanes, are highly combustible. Alkenes burn with a luminous flame to give carbon dioxide and water. The flame becomes luminous because of the higher carbon content of alkenes than alkanes. Their combustion reactions are exothermic.
Due to the luminosity of the flame, the lower alkenes may be used as illuminants.
As with all hydrocarbons, the homologous series of alkenes will burn in oxygen through combustion. In sufficient oxygen, the products will be carbon dioxide and water. In limited oxygen, alkenes undergo incomplete combustion to form carbon monoxide, carbon and water.
In complete combustion the products are water and carbon dioxide.
The complete combustion of a hydrocarbon would give carbon dioxide and water as the only products.
water and carbon dioxide
Combustion
Alkene
alkene
branched alkene...viva la apex
C4H8 may be an alkene, Butene or methyl propene and may be a cycloalkane, cyclobutane or methyl cyclopropane.
Water can be a product of combustion.
Combustion reactions
the product of any combustion rxn is CO2 (Carbon Dioxide) and H20 (water).
product
It is an alkene
Alkene elements appear to be useful in generating a mCPBA reaction. A product of Alkene is cyclohexene because it is generally used as a solvent. When cyclohexane is added to mCPBA, it creates epoxide.
Carbon dioxide is a product of combustion. It cannot undergo combustion.
Combustion
Nylon is a product of of alkene while cotton is a plant harvest.
cyclohexene - a 6 carbon ring with one double bond
Alkanol from alkeen + H2O
A combustion reaction