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Reactions of alkanes and alkenes

and both undergo , but only alkenes can undergo .

Complete combustion

The complete combustion of alkanes and alkenes involves the of . Carbon dioxide and water are produced. For example:

Ethane + oxygen 鈫 carbon dioxide + water

C2H6(g) + 3陆O2(g) 鈫 2CO2(g) + 3H2O(l)

Ethene + oxygen 鈫 carbon dioxide + water

C2H4(g) + 3O2(g) 鈫 2CO2(g) + 2H2O(l)

Notice that more of oxygen are needed to balance the equation for ethane, because the alkane contains more hydrogen atoms which need to be oxidised to form water molecules.

Question

Describe how alkanes and alkenes are oxidised during complete combustion.

Addition reactions of alkenes

The , C=C, allows alkenes to undergo addition reactions. For example, ethene reacts with bromine to form 1,2-dibromoethane:

CH2=CH2 + Br2 鈫 CH2BrCH2Br

It is easier to see what happens using structures with all their :

Ethene is added to bromine. 1,2-dibromoethane is formed.

The reaction is an 'addition' reaction because one molecule combines with another molecule, forming one larger molecule and no other .

Worked example

Propene, CH3CH=CH2, reacts with bromine. Predict the structure of the product formed.

The structure is: CH3CHBrCH2Br.

Question

But-1-ene, CH2=CHCH2CH3, reacts with bromine. Predict the structure of the product formed.

Distinguishing between alkanes and alkenes

An orange-brown solution of bromine dissolved in water, called bromine water, is used to distinguish between alkanes and alkenes:

  • there is no change when bromine water is mixed with an alkane
  • the bromine water becomes colourless when it is mixed with an alkene
A bottle of hexane and hex-1-ene
Image caption,
Bromine water is decolourised in hex-1-ene but not in hexane