Functional Groups (OCR AS Chemistry A)
Revision Note
Homologous Series
Organic chemistry is the chemistry of carbon compounds
Carbon forms a vast number of compounds because it can form strong covalent bonds with itself
This enables it to form long chains of carbon atoms, and hence an almost infinite variety of carbon compounds are known
An almost infinite variety of chains, branches and rings is possible
Homologous series
A homologous series is a group of organic compounds that have the same functional group, but each successive member differs by CH2
Ethanol and propanol belong to the same homologous series
Homologous Series of Alkanes
Things we can say about a homologous series:
Each member has the same functional group
Each member has the same general formula
Each member has similar chemical properties
Each successive member differs by -CH2 –
Members have gradually changing physical properties, for example, boiling point, melting point and density
As a homologous series is ascended, the size of the molecule increases
This has an effect on the physical properties, such as boiling point and density
Describing Chemicals
A functional group is a group of atoms that are responsible for the characteristic reactions of a compound
They determine the physical and chemical properties of molecules
Organic compounds can be classified into one of three categories:
Aliphatic - a compound containing carbon and hydrogen joined together in straight chains, branched chains or non-aromatic rings
Alicyclic - this is an aliphatic compound arranged in non-aromatic rings with or without side chains
Aromatic - a compound containing a benzene ring
The table below shows a summary of common functional groups found in compounds
R is any other atom or group of atoms (except for hydrogen)
Functional Groups found in Compounds Table
Examiner Tips and Tricks
Remember: Organic compounds can also be described as:
Saturated - containing single carbon–carbon bonds only
Unsaturated - containing a minimum of one carbon-carbon bond that is not single, e.g. C=C or C≡C
Converting Names to Formulae
As previously discussed, a homologous series is a group of organic compounds that have the same functional group, but each successive member differs by CH2
The homologous series of hydrocarbons called the alkanes has the general formula CnH2n+2
The homologous series of hydrocarbons called the alkenes has the general formula CnH2n
These general formulae can be used to predict the chemical formula of any member of the same homologous series
Worked Example
Use the descriptions to deduce the formula of the following chemicals:
Eicosane - an alkane containing a 20 carbon backbone
n-nonapentacontane - a long chain alkane isolated in 1997 containing 59 carbons
Oct-3-ene - an 8 carbon alkene with one C=C bond on carbon-3
Answers
Answer 1: Eicosane is an alkane so has the general formula CnH2n+2
There are 20 carbons so n is 20, which means that there are 2n+2 hydrogens or (2 x 20) + 2 = 42
Therefore, the formula of eicosane is C20H42
Answer 2: n-nonapentacontane is an alkane so has the general formula CnH2n+2
There are 59 carbons so n is 59, which means that there are 2n+2 hydrogens or (2 x 59) + 2 = 120
Therefore, the formula of n-nonapentacontane is C59H120
Answer 3: Oct-3-ene is an alkene so has the general formula CnH2n
There are 8 carbons in oct-3-ene so n is 8, which means that there are 2n hydrogens or (2 x 8) = 16
Therefore, the formula of oct-3-ene is C8H16
The process shown in the worked examples can be applied to any homologous series providing that the general formula and the number of at least one of the component elements are known
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