7.1 An Introduction to A Level Organic Chemistry (A Level Only)

This question is about the chemistry of limonene.

Limonene is commonly found in the rinds of citrus fruits such as grapefruit, lemon, lime and oranges. It is a naturally occurring hydrocarbon with the molecular formula C₁₀H₁₆.

Limonene exists as a pair of enantiomers:

• One enantiomer is responsible for a strong orange smell
• The other enantiomer is responsible for a lemon smell.

Draw 3D representations of the two enantiomers of limonene.

Suggest why receptors in the human nose can distinguish between the orange and lemon enantiomers of limonene.

Limonene can undergo full hydrogenation to form menthane as shown.

For the complete hydrogenation of an impure sample of 3.00 g of limonene at room temperature and pressure, 870 cm³ of hydrogen was required. 

Calculate the percentage purity of limonene.

(1 mol of hydrogen occupies 24.0 dm³ at room temperature and pressure)

percentage purity = ........................ %

The final step of the multi-step synthetic conversion of limonene to menthol is shown.

 

State the reagent for this reaction and the type of reaction.

Aldehydes and ketones always react with HCN to form optical isomers.

Discuss this statement, using the general formulae RCHO and R’COR’’. Your answer should include equations where appropriate.

Acidified K₂CrO₇ (aq) was heated under reflux with the following β-hydroxyaldehyde shown in Fig. 3.1. 

Explain the change in chirality, if any, between the β-hydroxyaldehyde and its organic product.

Other isomers of pent-1-en-3-ol, C₅H₁₀O, exist.

Benzene can exist as C₆H₆ or be substituted in a number of different ways to form aromatic compounds.

State the IUPAC name for compounds W, X and Y. 

State the IUPAC name for compound Z.

State the bond angle that is present in the benzene molecule.

In benzene, each of the carbon atoms is sp² hybridised.

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This question is about benzene.

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Benzene can be nitrated by warming it with a mixture of concentrated sulfuric acid and concentrated nitric acid.

The mechanism for the reaction is shown in Fig. 3.1.

Name the type of mechanism of this nitration reaction. Explain your answer.

Benzene can be used to synthesise (4-aminophenyl)ethanoic acid which is a drug that can be used to treat chronic inflammation of the intestines.

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Fig. 3.2

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Noradrenaline, shown in Fig. 3.3, is a hormone and neurotransmitter which contains a benzene ring. It is released during stress to stimulate the heart and increase blood pressure.

Fig. 3.3

Other than the arene functional group, state the name of three functional groups in the noradrenaline molecule.

Leucine is an optically active amino acid with the molecular formula (CH₃)₂CHCH₂CH(NH₂)COOH. 

Draw the displayed formula of leucine.

Leucine exists as stereoisomers. 

The two optical isomers of leucine taste different. One isomer has a bitter taste, the other is sweet.

Draw the three-dimensional arrangement of the two optical isomers.

Give the IUPAC name of leucine.

Propranolol is an optically active drug that is used to treat hypertension. Its structure is shown in Fig. 5.1.

Fig. 5.1

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Explain why a racemic mixture of propranolol has no effect on plane polarised light.

Explain why it is important to separate a racemic mixture of propranolol into pure single enantiomers.

Chiral catalysts are often used in the manufacturing process of drugs.

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