Alcohols Flashcards
From oxidizing agents to Sn2 reactions, use these cards to master alcohols.
What suffix will a hydroxyl (-OH) group give to the name of a molecule?
Assume no higher-priority functional groups are present.
“-ol”
For example, ethanol is an ethane chain with a single hydroxyl group replacing one hydrogen. “Ethane-ol” gives us its name, ethanol.
What suffix will two hydroxyl (-OH) groups give to the name of a molecule?
Assume no higher-priority functional groups are present.
“-diol”
For example, methanediol is a methane molecule with two hydroxyl groups replacing two hydrogens. “Methane-diol” gives us its name, methanediol.
How is an alcohol designated in the nomenclature of a molecule that also contains higher-priority functional groups?
An alcohol is designated by the prefix “hydroxy.”
For example, 1-hydroxypropanone is a propane chain with a carbonyl group on its central carbon (a ketone) and a hydroxyl group on its first carbon. “1-hydroxyl-propane-ketone” gives us its name, 1-hydroxypropanone.
What general term describes an alcohol located on the end of a carbon chain?
A terminal hydroxyl group is called a primary alcohol.
Primary alcohols are bound to primary carbons, which are carbons that are attached to only one other carbon atom.
For example, 1-propanol consists of a propane chain with one hydroxyl group bound to its first carbon.
What general term describes an alcohol bound to a carbon in the middle of a non-branching chain?
A non-terminal hydroxyl group in the middle of a straight carbon chain must be bound to a secondary carbon. For this reason, it is called a secondary alcohol.
For example, 2-propanol consists of a propane chain with one hydroxyl group bound to its second carbon.
What general term describes an alcohol bound to a carbon at the intersection of three carbon chains?
A hydroxyl group at the intersection of three carbon chains must be bound to a tertiary carbon. For this reason, it is called a tertiary alcohol.
For example, 2-methylbutanol consists of a butane chain with one hydroxyl group bound to its second carbon, which is also attached to a methyl group.
What is the IUPAC name of the following molecule, and what type of alcohol is it?
This molecule is 1-propanol, a primary alcohol.
What is the IUPAC name of the following molecule, and what type of alcohol is it?
This molecule is 2-butanol, a secondary alcohol.
What is the IUPAC name of the following molecule, and what type of alcohol is it?
This molecule is 1,3-butanediol. As a diol, it contains two hydroxyl groups, one of which is primary and one of which is secondary.
What is the IUPAC name of the following molecule, and what type of alcohol is it?
This molecule is 2-methyl-2-butanol, a tertiary alcohol.
Which type of intermolecular attractions are alcohols, but not alkanes, able to exert?
Alcohols are able to undergo hydrogen bonding.
Remember that any molecule that contains a hydrogen attached to F, N, or O is able to hydrogen bond. While hydrogen bonding is stronger than dipole-dipole or London dispersion forces, it is much weaker than any intramolecular bond.
How does the boiling point of an alcohol compare to that of an alkane of similar size?
The alcohol has a higher boiling point.
Alcohols undergo hydrogen bonding, while alkanes can only exert London dispersion forces. When molecular size is similar, intermolecular attractive forces determine the relative boiling point difference between two molecules.
How does the boiling point of an alcohol compare to that of an aldehyde of similar size?
The alcohol will have a higher boiling point.
Alcohols undergo hydrogen bonding, while aldehydes can only exert dipole-dipole interactions. When molecular size is similar, intermolecular attractive forces determine the relative boiling point difference between two molecules.
How does the boiling point of methanol compare to that of water?
Methanol has a lower boiling point than water.
Both water and methanol can undergo hydrogen bonding. However, each water molecule has two hydrogens bound to its oxygen atom, allowing it to possess twice as many hydrogen bonds than methanol per molecule. More hydrogen bonding always increases the intermolecular attractive forces, which causes the boiling point to rise.
How does the branching of its carbon chain affect the boiling point of an alcohol?
Assume all other factors remain constant.
Increased branching decreases the boiling point of an alcohol.
Branching decreases boiling point in general, not just for alcohols. The added branches reduce the surface area available for attractive intermolecular forces.
Rank the following molecules in order from lowest to highest boiling point.
- n-butanol
- isobutanol
- tert-butyl alcohol
From lowest to highest:
- tert-butyl alcohol (83°C)
- isobutanol (108ºC)
- n-butanol (118ºC).
Increased branching decreases the boiling point of any carbon-based organic compound. The highly branched tert-butyl alcohol, then, must have a significantly lower boiling point than the unbranched n-butanol.
Rank the following molecules in order from lowest to highest boiling point.
- 2,3-dimethyl-2-butanol
- 1-hexanol
- 3-methyl-2-pentanol
From lowest to highest:
- 2,3-dimethyl-2-butanol (119ºC)
- 3-methyl-2-pentanol (134ºC)
- 1-hexanol (158ºC).
Increased branching decreases the boiling point of any carbon-based organic compound. The highly branched 2,3-dimethyl-2-butanol, then, must have a significantly lower boiling point than the unbranched 1-hexanol.
While you should be able to draw the structures of molecules like this given the names, those structures are included below for reference.
How does the branching of its carbon chain affect the melting point of an alcohol?
Assume all other factors remain constant.
Between already-branched alcohols, increased branching tends to increase the melting point, as long as the branching creates a more compact structure.
Branching increases melting point in general, not just for alcohols. The added branches makes the molecule’s shape more compact and easier to stack into a solid.
Which of these two molecules has a higher melting point?
Tert-buyl alcohol
Branching tends to increase the melting point, since the added branches make the shape more compact and easier to fit into a solid structure. Straight-chain (unbranched) molecules are not included in this general rule.
When an alcohol is introduced into an acidic environment, what will result?
The alcohol group will be protonated.
If an environment is sufficiently acidic, it will add an additional proton to the alcohol’s oxygen atom, turning the -OH group into an -OH2+ group. As a water molecule, this protonated alcohol is an effective leaving group. For this reason, protonation is the first step in many reactions that involve alcohols.
What product will form when a tertiary alcohol reacts with a nucleophile in an acidic environment?
tertiary substituted product
For example, if the nucleophile was Br-, the product will be a tertiary alkyl bromide.
The acidic environment protonates the -OH group, turning it into -OH2+, which is an effective leaving group. Since the leaving group is bound to a tertiary carbon, it must dissociate spontaneously via an SN1 reaction. This generates a carbocation, which is later attacked by the nucleophile, forming a tertiary substituted product.
What product will form when tert-butanol reacts with HBr in an aqueous environment?
2-bromo-tert-butane
Since the leaving group is bound to a tertiary carbon, this reaction must occur via an SN1 mechanism; SN2 reactions do not occur with tertiary reactants. Bromine, the nucleophile, will simply substitute in for the -OH group.