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10.3 Alcohols These compounds have an -OH attached to the carbon chain. This functional group is called a hydroxyl group. Note: The oxygen is bonded to.

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Presentation on theme: "10.3 Alcohols These compounds have an -OH attached to the carbon chain. This functional group is called a hydroxyl group. Note: The oxygen is bonded to."— Presentation transcript:

1 10.3 Alcohols These compounds have an -OH attached to the carbon chain. This functional group is called a hydroxyl group. Note: The oxygen is bonded to the carbon in a covalent bond. The hydrogen is then bonded in a covalent bond to the oxygen, it is not a hydroxide ion that is attached to the carbon atom.

2 Classes of Alcohols The number of R groups attached to the carbon with the hydroxyl group is used to classify alcohols as primary, secondary or tertiary alcohols:

3 Primary alcohol, where only one R group is attached to the carbon to which the hydroxyl group is attached: R - CH2 - OH Secondary alcohol, where two R groups are attached to the carbon to which the hydroxyl group is attached: R I R2 - CH - OH

4 Tertiary alcohol, where three R groups are attached to the carbon to which the hydroxyl group is attached: R1 I R2 - C – OH R3

5 Naming Alcohols Determine the parent alkane as the longest continuous chain that includes the carbon attached to the -OH group. Number the carbons in this chain so that the carbon attached to the -OH group has the lowest number. Drop the -e ending from the name of the parent alkane and replace it with –ol Alcohols containing two or three -OH groups are called diols and triols.

6 Common Names of Alcohols
Many alcohols have common names based on naming the hydrocarbon chain as an alkyl group and adding the word alcohol. For example: IUPAC name: Common name: Structural formula: methanol methyl alcohol CH3 - OH ethanol ethyl alcohol CH3 - CH2 - OH propan-1-ol 1-propyl alcohol CH3-CH2-CH2 - OH These are all primary alcohols

7 Example of a diol ethane-1,2-diol or ethylene glycol CH2 - CH2 I I
OH OH

8 Alcohols with an aromatic ring are called phenols:
2-methylphenol (o-cresol) phenol

9 Cyclic Alcohols C6H11OH(l) is a cyclohexanol.
The following diagram is for cyclohexane-1,2-diol OH OH OH

10 Properties of Alcohols
Intermolecular hydrogen bonding is possible since the -OH group is slightly polar, therefore boiling points are quite high and so even the smallest alcohols are liquids at room temperature. Due to the slight polarity of the -OH group, small chain alcohols, up to 4C, are soluble in water but from 5C up alcohols have limited solubility due to the non-polar nature of the C chains.

11 pentan-1-ol pentan-2-ol pentan-3-ol 2-methylbutan-1-ol 2-methylbutan-2-ol 3-methylbutan-2-ol 2,2-dimethylpropanol 3-methylbutan-1-ol

12 Elimination Reactions
Elimination reactions are essentially the reverse of the addition reactions we saw above. Halogens or hydroxyl groups are removed or eliminated from the molecule to produce a double bond in an alkene.

13 Elimination For example: elimination of a halogen: H H H H H H
I I I I I I H - C - C - C – H + OH-  H - C = C - C – H + HOH + Br- I I I I H Br H H 2-bromopropane propene

14 Elimination H H H H Or: the elimination of water: I I acid I I
H - C - C– H  H - C = C – H HOH I I H OH ethanol ethene

15 Elimination Elimination reactions are important as they produce useful unsaturated compounds for the synthesis of more compounds, particularly plastics.

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