3.1.9.3 Rate-Determining Step

    Cards (91)

    • Order the steps of a reaction mechanism based on their contribution to the overall reaction rate:
      1️⃣ Rate-determining step (Slow, Significant contribution)
      2️⃣ Step 2 (Fast, Minimal contribution)
      3️⃣ Step 3 (Fast, Minimal contribution)
    • What role does the rate-determining step play in reaction mechanisms?
      Limits the overall reaction rate
    • The rate-determining step is crucial for understanding and controlling reaction speeds
    • To identify the rate-determining step in a multi-step mechanism, analyze the relative rates
    • The rate equation for the reaction C + D → E is rate = k[C][D]
    • Match the process with its rate-determining step:
      Catalytic converter in cars ↔️ Adsorption of reactants
      Haber process for ammonia synthesis ↔️ Dissociation of N₂
    • Steps to calculate rate constants and reaction orders:
      1️⃣ Identify the rate equation
      2️⃣ Determine reaction orders
      3️⃣ Calculate the rate constant
    • What is the first step in calculating rate constants and reaction orders?
      Determine reaction orders
    • The rate constant for a first-order reaction is calculated as k = rate / [A].

      True
    • The first step in calculating rate constants and reaction orders is to identify the rate equation
    • What determines the reaction order in a rate equation?
      Experimental data
    • The rate-determining step limits the overall rate of the reaction.
      True
    • Steps to identify the rate-determining step in a multi-step mechanism
      1️⃣ Analyze the relative rates of each step
      2️⃣ Determine which step is the slowest
      3️⃣ Identify the slowest step as the rate-determining step
    • If the rate equation includes intermediates, they must be expressed in terms of reactants
    • What is the rate-determining step in the Haber process for ammonia synthesis?
      Dissociation of nitrogen
    • What is the primary purpose of the catalytic converter in cars?
      Remove harmful pollutants
    • For the reaction 2A → B, if the rate quadruples when [A] doubles, the reaction is second-order with respect to A.
    • The rate-determining step limits the overall rate of the reaction because it is the slowest step.

      True
    • The rate-determining step is the slowest step in a reaction mechanism
    • Chemists use the rate-determining step to design catalysts and optimize reaction conditions
    • The rate-determining step (Step 1) controls the pace of the entire reaction.

      True
    • What must be included in the final rate equation?
      Rate constant and reactant concentrations
    • The final rate equation for the reaction mechanism is rate = kK[A][B][D]
    • What is the rate-determining step in a chemical reaction?
      The slowest step
    • What is the first step in calculating rate constants and reaction orders?
      Identify the rate equation
    • What is the rate equation for the reaction 2A → B if the rate quadruples when [A] doubles?
      rate = k[A]^2
    • What is molecularity in the context of a rate-determining step?
      Number of reactant molecules
    • According to collision theory, what three factors influence the rate-determining step?
      Frequency, energy, orientation
    • What does a higher collision frequency in the rate-determining step lead to?
      More potential collisions
    • The rate-determining step is the fastest step in a reaction mechanism.
      False
    • The rate-determining step helps chemists design catalysts and optimize reaction conditions
    • Even if other steps in a mechanism are fast, the overall reaction rate is limited by the rate-determining step.

      True
    • A rate-determining step with a slow reaction rate has a significant contribution to the overall reaction rate.

      True
    • Match the step with its contribution to the overall reaction rate:
      Rate-Determining Step ↔️ Significant
      Fast Step ↔️ Minimal
    • Steps to derive a rate equation using the rate-determining step:
      1️⃣ Identify the rate-determining step
      2️⃣ Write the rate equation for this step
      3️⃣ Use stoichiometry to determine reaction orders
      4️⃣ Include rate constant and concentrations
    • The overall rate equation for the reaction A + B ⇌ C followed by C + D → E is rate = kK[A][B][D]
    • The rate-determining step in the Haber process is the dissociation of the nitrogen molecule
    • If the rate doubles when the concentration of A doubles, the reaction A → B is first-order
    • What happens to the reaction rate when the concentration of A is doubled in a first-order reaction (A → B)?
      Rate doubles
    • What is the rate equation for a reaction A → B where doubling [A] doubles the reaction rate?
      rate = k[A]