3.3.8.3 Tests for Aldehydes and Ketones

Cards (28)

  • Where is the carbonyl group located in aldehydes?
    At the end of the chain
  • Aldehydes are more reactive than ketones due to the position of the carbonyl group
    True
  • Ketones react with Tollens' reagent to form a silver mirror
    False
  • Ketones react with Fehling's solution to form a precipitate
    False
  • Aldehydes and ketones are both carbonyl compounds.

    True
  • Match the compound with its type:
    Acetaldehyde ↔️ Aldehyde
    Acetone ↔️ Ketone
  • Steps of the reaction between Tollens' reagent and an aldehyde
    1️⃣ Tollens' reagent reacts with the aldehyde
    2️⃣ The aldehyde is oxidized to a carboxylic acid
    3️⃣ Silver ions (Ag⁺) are reduced to metallic silver (Ag)
    4️⃣ A silver mirror forms on the test tube
  • What precipitate is formed when Fehling's solution reacts with an aldehyde?
    Red-orange precipitate
  • What type of precipitate is formed when Brady's reagent reacts with an aldehyde or ketone?
    Yellow-orange precipitate
  • How can you identify a ketone based on chemical test results?
    Forms yellow-orange precipitate with Brady's only
  • What is Tollens' reagent used for?
    To distinguish aldehydes
  • What is Fehling's solution composed of?
    Copper(II) sulfate and NaOH
  • Why are aldehydes more reactive than ketones?
    Carbonyl group at the end
  • In aldehydes, the carbonyl group is located at the end of the chain
  • Aldehydes are more susceptible to oxidation due to the carbonyl group being at the end
  • Why do ketones not react with Tollens' reagent?
    Lack of easily oxidizable hydrogen
  • Ketones react with Fehling's solution to form a red-orange precipitate.
    False
  • Brady's reagent can detect both aldehydes and ketones.

    True
  • Aldehydes and ketones are both carbonyl compounds, meaning they contain a carbon-oxygen double bond
  • The general formula for aldehydes is RCHO
  • Steps in the reaction of Tollens' reagent with an aldehyde
    1️⃣ Silver ions in Tollens' reagent are reduced
    2️⃣ Metallic silver forms a silver mirror
    3️⃣ The aldehyde is oxidized to a carboxylic acid
  • When Fehling's solution reacts with an aldehyde, a red/orange precipitate of copper(I) oxide is formed.
  • Why is the carbonyl group in aldehydes more reactive compared to ketones?
    It is at the end of the chain
  • What is the general formula for ketones?
    R1COR2R_{1}COR_{2}
  • What is Tollens' reagent prepared from?
    Silver nitrate and ammonia
  • Fehling's solution is composed of copper(II) sulfate and sodium hydroxide
  • Brady's reagent is also known as 2,4-dinitrophenylhydrazine
  • Match the reagent with the observed reaction with aldehydes:
    Tollens' Reagent ↔️ Forms a silver mirror
    Fehling's Solution ↔️ Forms a red-orange precipitate
    Brady's Reagent ↔️ Forms a yellow-orange precipitate