Alkenes and Alkanes
Properties
The alkanes are a homologous series of hydrocarbons. This means that they have similar chemical properties to each other and they have trends in physical properties. For example, as the chain length increases, their boiling point increases.
Homologous series
A 'family' of organic compounds that have the same functional group and similar chemical properties.
Double bond
A covalent bond resulting from the sharing of four electrons (two pairs) between two atoms.
Saturated hydrocarbons
Alkanes are saturated hydrocarbons. This means that their carbon atoms are joined to each other by single bonds. This makes them relatively unreactive, apart from their reaction with oxygen in the air - which we call burning or combustion.
Properties
Alkenes are a homologous series of hydrocarbons that contain a carbon-carbon double bond. The number of hydrogen atoms in an alkene is double the number of carbon atoms.
Unsaturated
Alkenes are unsaturated, meaning they contain a double bond. This bond is why the alkenes are more reactive than the alkanes.
Alkenes
An alkene is an organic compound that contains a double bond between two carbon atoms. For this reason an alkene is referred to as an unsaturated hydrocarbon.
Test
Bromine water is an orange solution of bromine. It becomes colourless when it is shaken with an alkene. Alkenes can decolourise bromine water, but alkanes cannot.
Ethene
C2H4
Ethanol
C2H5OH
Ethane
C2H6
Propene
C3H6
Propanol
C3H7OH
Propane
C3H8
Butane
C4H10
But-1-ene
C4H8
But-2-ene
C4H8
Pentane
C5H12
Methanol
CH3OH
Methane
CH4
The general formula for a simple alcohol
CnH(2n+1)OH
The general formula for an alkane
CnH(2n+2)
The general formula for an alkene
CnH2n
Functional group
Functional groups are groups of atoms within molecules that are responsible for the characteristic chemical reactions of those molecules. The same functional group will undergo the same or similar chemical reaction(s) regardless of the size of the molecule it is a part of. The functional group for alkenes is the double bond between the carbon atoms C=C. The functional group for alcohols is the -OH group.
Isomerism
Like other homologous series, the alkanes show isomerism. This means that their atoms can be arranged differently to make slightly different compounds with different properties. For example, an isomer of butane is methylpropane.
Name
Molecular Formula
Name -
Molecular formula -
The straight chain alkanes share the same general formula
The general formula means that the number of hydrogen atoms in an alkane is double the number of carbon atoms, plus two. For example, methane is CH4 and ethane is C2H6.
Testing for alkenes
The presence of the C=C double bond allows alkenes to react in ways that alkanes cannot. This allows us to tell alkenes apart from alkanes using a simple chemical test.
Reaction
The reaction between bromine and alkenes is an example of a type of reaction called an addition reaction. The bromine is decolourised because a colourless dibromo compound forms. For example: ethene + bromine → dibromoethane C2H4 + Br2 → C2H4Br2
Alkanes
These are hydrocarbons with single covalent bonds between the carbon atoms. They are referred to as saturated hydrocarbons for this reason.
