If alkene is straight chain and alkane has one tertiary carbon atom then alkylation of alkene takes place and a substituted alkane is produced.
No, the conversion of an alkene to an alkane is a reduction reaction, not an oxidation reaction. The addition of hydrogen gas (H2) across the carbon-carbon double bond in the alkene results in the formation of an alkane. This process involves the gain of hydrogen, which is a reduction.
Yes, if the alkane is cyclic and the alkene is not.
alkane
Cyclopentene is an alkene because it contains a carbon-carbon double bond. It is not an alkane (which contains only single bonds) or an alcohol (which contains a hydroxyl group).
It is a mono-alkene: C2H5-CH=CH-C3H7
No, the conversion of an alkene to an alkane is a reduction reaction, not an oxidation reaction. The addition of hydrogen gas (H2) across the carbon-carbon double bond in the alkene results in the formation of an alkane. This process involves the gain of hydrogen, which is a reduction.
The alkene to alkane reaction occurs through a process called hydrogenation, where hydrogen gas is added to the alkene molecule in the presence of a catalyst, such as platinum or palladium. This results in the breaking of the double bond in the alkene, converting it into a single bond in the alkane.
An alkene can undergo halogenation when combined with chlorine or bromine in a halogenation reaction to form a dihalogenated alkane. This reaction involves the addition of a halogen atom across the double bond of the alkene.
Yes, if the alkane is cyclic and the alkene is not.
The hydrogenation of an alkene gives an alkane. This reaction involves the addition of hydrogen atoms across the carbon-carbon double bond in the alkene, resulting in the conversion of the double bond to a single bond.
1-nonene is an alkene because it has a double bond between two carbon atoms in its carbon chain.
C4H8 can refer to either an alkene or an alkane. In the case of an alkene, it would be 1-butene, while for an alkane, it would be 2-methylpropene. The distinction can be made based on the presence of a double bond in the alkene.
Technically it can be described as oxidation. Technically it is an oxidation reaction, although I've never heard it described as "the oxidation of an alkane". Strange, since when an alkene is converted to an alkane by hydrogenation, we do hear it called "reduction of an alkene". Perhaps this is because the term "alkane oxidation" has been appropriated for the promising research into efficiently capturing energy by combining alkanes with oxygen at low temperatures.
alkane
unsaturation
C5H10 can be both an alkane and an alkene. As an alkane, it would be pentane (C5H12), and as an alkene, it would be 1-pentene (C5H10). The presence or absence of a double bond in the molecule determines if it is an alkane or an alkene.
In chemistry the cracking of a long alkane chain produces and alkane and an alkene.