Tutorial 8 — Aldehydes and Ketones
Learning Outcomes
- Identify aldehydes and ketones using chemical tests
- Understand nucleophilic addition reactions
- Learn the iodoform test and its applications
- Compare reactivity of aldehydes and ketones
Part A: Identification Tests
Question 1
a) How would you distinguish between an aldehyde and a ketone using simple chemical tests?
b) Describe the results you would expect with:
- Tollens' reagent
- Fehling's solution
- 2,4-dinitrophenylhydrazine (2,4-DNP)
c) Which of the above tests would give a positive result with both aliphatic and aromatic aldehydes?
Question 2
Consider the following carbonyl compounds:
- Ethanal (acetaldehyde)
- Propanone (acetone)
- Benzaldehyde
- Pentan-2-one
a) Identify which compound(s) would give a positive result with each reagent:
- Tollens' reagent
- Fehling's solution
- 2,4-DNP
b) Which compounds contain the methyl ketone group (CH₃CO-)?
Extracted note: identify the presence of CH₃CO-
c) Which aldehyde is the only one that gives a positive iodoform test?
Extracted answer: Ethanal is the only aldehyde that give +ve result
Part B: Iodoform Test
Question 3
a) What is the iodoform test? Write the reaction showing the formation of iodoform (CHI₃).
b) Which of the following compounds would give a positive iodoform test?
- Ethanol
- Propan-2-ol
- Propan-1-ol
- Acetophenone
- Benzophenone
- Ethanal
c) What are compounds A, B, and E in the context of the iodoform test?
Extracted note: A B E — likely referring to compounds in a multiple choice or matching question
Question 4
a) Write the mechanism for the iodoform reaction starting from ethanol.
b) Explain why the iodoform test is specific for compounds containing the CH₃CH(OH)- or CH₃CO- groups.
c) A compound C₄H₈O gives a positive iodoform test but does not reduce Tollens' reagent. Identify the compound.
Part C: Nucleophilic Addition Reactions
Question 5
a) Explain why aldehydes are generally more reactive than ketones in nucleophilic addition reactions.
b) Arrange the following in order of increasing reactivity toward nucleophilic addition:
- Formaldehyde
- Acetaldehyde
- Acetone
- Benzaldehyde
- Acetophenone
c) Explain your reasoning for the order.
Question 6
a) Complete the following reactions:
- Ethanal + HCN →
- Propanone + NaHSO₃ →
- Benzaldehyde + Grignard reagent (CH₃MgBr) →
- Acetaldehyde + 2,4-DNP →
b) Write the mechanism for the addition of HCN to acetone.
Part D: Classification
Question 7
a) Classify the following as aliphatic or aromatic carbonyl compounds:
Extracted note: Aliphatic
b) Define:
- Aliphatic aldehyde
- Aromatic aldehyde
- Aliphatic ketone
- Aromatic ketone
c) Give one example of each type.
Part E: Advanced Reactions
Question 8
a) Explain the Wolff-Kishner reduction and Clemmensen reduction. When would you use each?
b) What is the Cannizzaro reaction? Give an example.
c) Write the mechanism for the Aldol condensation between two molecules of acetaldehyde.
Key Concepts
- Aldehyde — Carbonyl compound with -CHO group
- Ketone — Carbonyl compound with R-CO-R' structure
- Nucleophilic Addition — Characteristic reaction of carbonyl compounds
- Iodoform Test — Test for CH₃CO- or CH₃CH(OH)- groups
- Tollens' Reagent — [Ag(NH₃)₂]⁺ used to test for aldehydes
- Fehling's Solution — Cu²⁺ complex used to test for reducing sugars/aldehydes
Quick Reference: Chemical Tests
| Compound | Tollens' | Fehling's | 2,4-DNP | Iodoform |
|---|---|---|---|---|
| Aliphatic aldehyde | ✓ | ✓ | ✓ | Sometimes |
| Aromatic aldehyde | ✓ | ✗ | ✓ | Sometimes |
| Methyl ketone | ✗ | ✗ | ✓ | ✓ |
| Other ketones | ✗ | ✗ | ✓ | ✗ |
Related Topics
- Alcohols
- Carboxylic Acids
- Grignard Reagents
- Organic Synthesis