16.3.1 Determining Mechanisms

Cards (30)

  • What is a reaction mechanism?
    Step-by-step reaction description
  • The reaction between NO2 and CO to form NO and CO2 occurs through a single-step mechanism.
    False
  • The slowest step in a reaction mechanism is called the rate-determining step.
  • What is an elementary reaction?
    Single-step reaction process
  • An elementary reaction involves intermediate steps.
    False
  • The rate-determining step is the slowest step in a reaction mechanism.
  • What is the reaction rate proportional to if the first step of the NO2 and CO reaction is the RDS?
    [NO2]2[NO_{2}]^{2}
  • Steps to propose potential reaction mechanisms
    1️⃣ Write down the overall reaction
    2️⃣ Consider elementary steps
    3️⃣ Identify intermediates
    4️⃣ Check mass and charge balance
    5️⃣ Compare with experimental data
  • To validate a proposed mechanism, compare its predicted rate law with the experimentally determined rate law.
  • What are reaction intermediates?
    Short-lived species in mechanisms
  • Reaction intermediates appear in the overall reaction equation.
    False
  • What are the two key characteristics of a catalyst in a reaction mechanism?
    Used and regenerated
  • What role does NO2 play in the reaction between NO2 and CO according to the study material?
    Not a catalyst
  • A catalyst is a substance that speeds up a chemical reaction without being consumed
  • A catalyst must be regenerated in another step to be identified in a reaction mechanism.
  • What is a reaction mechanism in chemistry?
    Sequence of elementary steps
  • Steps in the reaction mechanism between NO2 and CO
    1️⃣ NO_{2} + NO_{2} \rightarrow NO + NO_{3}
    2️⃣ NO_{3} + CO \rightarrow NO_{2} + CO_{2}
  • An elementary reaction is a single-step process without intermediate steps
  • Match the type of elementary reaction with its description:
    Unimolecular ↔️ Single molecule decomposes
    Bimolecular ↔️ Two molecules collide
  • The rate-determining step is always the fastest step in a reaction mechanism.
    False
  • What is the rate law for the reaction NO2 + CO if the rate-determining step is 2NO2 → NO + NO3?
    rate = k[NO_{2}]^{2}</latex>
  • To propose a reaction mechanism, the first step is to write down the overall reaction
  • What does the Arrhenius equation describe?
    Temperature effects on rate
  • Reaction intermediates appear in the overall reaction equation.
    False
  • A catalyst lowers the activation energy
  • Match the type of catalyst with its description:
    Homogeneous ↔️ Same phase as reactants
    Heterogeneous ↔️ Different phase from reactants
  • What is the rate law for the reaction NO2 + CO if the rate-determining step is 2NO2 → NO + NO3?
    rate=rate =k[NO2]2 k[NO_{2}]^{2}
  • Molecularity refers to the number of reactant molecules in an elementary reaction
  • Order the types of molecularity from highest to lowest frequency:
    1️⃣ Bimolecular
    2️⃣ Unimolecular
    3️⃣ Trimolecular
  • Trimolecular reactions are less common due to the low probability of three molecules colliding simultaneously.