This question is about amines. 1 1 1. Give an equation for the preparation of 1,6-diaminohexane by the reaction of 1,6-dibromohexane with an excess of ammonia. 1 1 2. Complete the mechanism for the reaction of ammonia with 6-bromohexylamine to form 1,6-diaminohexane. Suggest the structure of a cyclic secondary amine that can be formed as a by-product in this reaction. Mechanism NH₃ Bromocyclohexane Cyclic secondary amine 1 1 3. 1,6-Diaminohexane can also be formed in a two-stage synthesis starting from 1,4-dibromobutane. Suggest the reagent and condition for each stage in this alternative synthesis. Stage 1 reagent and condition Stage 2 reagent and condition 1 1 4. Explain why 3-aminopentane is a stronger base than ammonia. 1 1 5. Justify the statement that there are no chiral centres in 3-aminopentane.

Photo AI

This question is about amines - AQA - A-Level Chemistry - Question 1 - 2019 - Paper 2

Question 1

This question is about amines. 1 1 1. Give an equation for the preparation of 1,6-diaminohexane by the reaction of 1,6-dibromohexane with an excess of ammonia. 1 1... show full transcript

Worked Solution & Example Answer:This question is about amines - AQA - A-Level Chemistry - Question 1 - 2019 - Paper 2

Step 1

Give an equation for the preparation of 1,6-diaminohexane by the reaction of 1,6-dibromohexane with an excess of ammonia.

96%

114 rated

Answer

The reaction can be represented by the following equation:

$\text{Br-(CH₂)₄-CH(Br)-CH₂Br} + 6 \text{NH₃} \rightarrow \text{(CH₂)₄-CH(NH₂)-CH₂(NH₂)} + 2 \text{NH₄Br}$

Step 2

Complete the mechanism for the reaction of ammonia with 6-bromohexylamine to form 1,6-diaminohexane.

99%

104 rated

Answer

The mechanism involves the nucleophilic attack of ammonia on the carbon atom bonded to the bromine. The base (NH₃) attacks the electrophilic carbon center, resulting in the displacement of bromide ion and forming 1,6-diaminohexane.

The structure of a possible cyclic secondary amine includes a six-membered ring with a nitrogen atom in the structure, such as pyrrolidine.

Step 3

Stage 1 reagent and condition

96%

101 rated

Answer

Stage 1 reagent: KCN or NaCN Stage 1 condition: Aqueous alcohol or reflux

Step 4

Stage 2 reagent and condition

98%

120 rated

Answer

Stage 2 reagent: H₂ with Ni or Pt or Pd Stage 2 condition: Reflux under hydrogen atmosphere

Step 5

Explain why 3-aminopentane is a stronger base than ammonia.

97%

117 rated

Answer

3-aminopentane possesses additional alkyl groups which donate electron density to the nitrogen atom, enhancing its nucleophilicity. This increased electron density makes the nitrogen more willing to accept protons compared to ammonia.

Step 6

Justify the statement that there are no chiral centres in 3-aminopentane.

97%

121 rated

Answer

3-aminopentane does not have any chiral centers as the nitrogen atom is bonded to two hydrogen atoms and one alkyl group. Therefore, it does not meet the criteria for chirality, which requires four different substituents on a carbon atom.

Join the A-Level students using SimpleStudy...

97% of Students

Report Improved Results

98% of Students

Recommend to friends

100,000+

Students Supported

1 Million+

Questions answered

This question is about amines - AQA - A-Level Chemistry - Question 1 - 2019 - Paper 2

Worked Solution & Example Answer:This question is about amines - AQA - A-Level Chemistry - Question 1 - 2019 - Paper 2

Give an equation for the preparation of 1,6-diaminohexane by the reaction of 1,6-dibromohexane with an excess of ammonia.

Complete the mechanism for the reaction of ammonia with 6-bromohexylamine to form 1,6-diaminohexane.

Stage 1 reagent and condition

Stage 2 reagent and condition

Explain why 3-aminopentane is a stronger base than ammonia.

Justify the statement that there are no chiral centres in 3-aminopentane.

Join the A-Level students using SimpleStudy...

Other A-Level Chemistry topics to explore