4.4.2 Reaction mechanisms

Cards (44)

  • Understanding reaction mechanisms allows chemists to optimize reaction conditions
  • Match the reaction mechanism with its characteristic:
    SN1 ↔️ Two-step process with carbocation
    SN2 ↔️ Single-step process with backside attack
    E1 ↔️ Two-step elimination with carbocation
    E2 ↔️ Single-step concerted elimination
  • Nucleophiles possess a negative charge or lone pairs
  • Why is understanding reaction mechanisms crucial in organic synthesis?
    Predict, optimize, design reactions
  • Understanding reaction mechanisms allows chemists to predict the products of a reaction.
    True
  • Nucleophilic substitution (SN1) occurs with tertiary or benzylic carbocations
  • What does understanding reaction mechanisms help chemists design?
    Synthetic routes
  • Optimizing reaction conditions is one of the benefits of understanding reaction mechanisms.

    True
  • Elimination reactions involve the removal of atoms or groups to form a π-bond
  • Match the reaction mechanism with its characteristic:
    SN1 ↔️ Two-step process
    SN2 ↔️ Backside attack
    E1 ↔️ Carbocation intermediate
    E2 ↔️ Concerted removal of leaving group and H
  • Steps in the electrophilic addition mechanism
    1️⃣ Electrophile attacks the π-bond
    2️⃣ Carbocation intermediate is formed
    3️⃣ Nucleophile attacks the carbocation
  • In the SN1 mechanism, the leaving group departs to form a carbocation
  • Steps in the SN2 mechanism
    1️⃣ Nucleophile attacks from the backside
    2️⃣ Leaving group departs
  • The SN1 mechanism occurs with tertiary or benzylic carbocations because they stabilize the intermediate
  • Steps in the electrophilic addition mechanism
    1️⃣ Electrophile attacks the π-bond
    2️⃣ Carbocation intermediate forms
    3️⃣ Nucleophile attacks the carbocation
  • What is a reaction mechanism in organic synthesis?
    Step-by-step reaction description
  • Electrophilic addition involves the addition of an electrophile to a π-bond.

    True
  • What is a nucleophile in organic chemistry?
    Electron-rich species
  • Electrophiles are electron-deficient species that accept electron pairs.

    True
  • A reaction mechanism is a step-by-step description of how a chemical reaction occurs at the molecular level
  • Steps in the electrophilic addition mechanism
    1️⃣ Electrophile attacks the π-bond
  • SN2 reactions involve a planar carbocation intermediate.
    False
  • A reaction mechanism is a step-by-step description of how a chemical reaction occurs at the molecular level
  • What is an example of electrophilic addition in a reaction mechanism?
    HBr to propene
  • SN1 reactions occur in a single step.
    False
  • A nucleophile is an electron-rich species that donates electron pairs
  • Electrophiles are electron-deficient species that accept electron pairs.

    True
  • The SN1 mechanism involves a carbocation intermediate.

    True
  • SN2 reactions involve backside attack of the nucleophile on the carbon bearing the leaving group.

    True
  • What intermediate is formed in the first step of the SN1 mechanism?
    Carbocation
  • In the SN2 mechanism, the nucleophile attacks the carbon bearing the leaving group from the front.
    False
  • What is an example of a product formed in the electrophilic addition of HBr to propene?
    2-bromopropane
  • The SN2 mechanism occurs in a single concerted step.
  • What type of bond is formed in the E1 mechanism after a base removes a hydrogen?
    π-bond
  • The E2 mechanism occurs with tertiary alkyl halides.
    False
  • What type of carbocation is formed in the SN1 mechanism?
    Planar carbocation
  • The E2 mechanism involves the concerted removal of a hydrogen and the leaving group.
  • With what type of alkyl halides does the E2 mechanism occur?
    Primary or secondary
  • The SN2 mechanism occurs with tertiary alkyl halides.
    False
  • In the E2 mechanism, the base removes a hydrogen concurrently with the departure of the leaving group.