5.1.1 Rate equations

    Cards (35)

    • What is a rate equation?
      Mathematical expression for reaction rate
    • Changes in reactant concentrations can affect the reaction rate.

      True
    • Why are both types of rate equations crucial?
      Analyze and predict reaction behavior
    • Concentration terms in a rate equation are raised to their respective orders of reaction.

      True
    • What is the relationship between rate and concentration in a zero-order reaction?
      Rate is independent of concentration
    • What is the relationship between rate and concentration in a second-order reaction?
      Rate is proportional to [A]^2
    • Rate equations help us understand the kinetics
    • Match the type of rate equation with its definition:
      Empirical rate equation ↔️ Determined experimentally without mechanism
      Mechanistic rate equation ↔️ Derived from proposed reaction mechanism
    • The rate constant (k) reflects the reaction's rate at a specific temperature
    • Arrange the reaction orders from lowest to highest based on their dependence on reactant concentration:
      1️⃣ Zero-order
      2️⃣ First-order
      3️⃣ Second-order
    • In a first-order reaction, the rate is directly proportional to the reactant concentration.

      True
    • A first-order reaction suggests the rate-determining step involves the breakdown of a single molecule
    • In a first-order reaction, the rate is proportional to the first power of the reactant concentration
    • Sequence the steps for distinguishing between zero, first, and second-order reactions
      1️⃣ Measure the reaction rate at different reactant concentrations
      2️⃣ Analyze the relationship between rate and concentration
      3️⃣ Identify the order based on the observed relationship
    • Match the reaction order with its definition:
      Zero-order ↔️ Rate is independent of concentration
      First-order ↔️ Rate is proportional to concentration
      Second-order ↔️ Rate is proportional to square of concentration
    • What is a rate equation?
      Mathematical expression for rate
    • Match the component of a rate equation with its definition:
      Rate constant (k) ↔️ Proportionality constant at specific temperature
      Concentration terms ↔️ Reactant concentrations raised to orders
    • The order of a reaction describes how the reaction rate changes with reactant concentrations
      True
    • What happens to the rate of a first-order reaction if the reactant concentration is doubled?
      Reaction rate doubles
    • Doubling the reactant concentration in a second-order reaction increases the rate by a factor of four

      True
    • Sequence the steps for determining the order of a reaction experimentally
      1️⃣ Measure reaction rate at different concentrations
      2️⃣ Analyze the relationship between rate and concentration
      3️⃣ Identify the reaction order
    • What is the order of a reaction if doubling the reactant concentration doubles the reaction rate?
      First-order
    • To calculate the rate constant for a first-order reaction, the formula is k = Rate / [A]
    • What is the relationship between rate and concentration in a zero-order reaction?
      Rate is independent
    • What is the rate equation for a second-order reaction?
      Rate = k[A]^2
    • The rate of a zero-order reaction changes with reactant concentration
      False
    • In a second-order reaction, the rate is proportional to the square of the reactant concentration
    • An empirical rate equation is determined experimentally without regard to the reaction mechanism
    • What does the rate constant reflect in a rate equation?
      Reaction speed at temperature
    • Arrange the following reaction orders based on the impact of doubling reactant concentration on the reaction rate
      1️⃣ Zero-order (no change)
      2️⃣ First-order (doubles)
      3️⃣ Second-order (quadruples)
    • In a first-order reaction, doubling the reactant concentration doubles the reaction rate
    • Match the reaction order with an example:
      Zero-order ↔️ Decomposition of HI on gold surface
      First-order ↔️ Radioactive decay
      Second-order ↔️ Reaction of NO with ozone
    • The order of a reaction is the power to which the reactant concentration is raised in the rate equation
    • The rate constant (k) is a fixed value for all reactions at the same temperature
      False
    • If the reaction rate is 0.05 M/s and the concentration of A is 0.01 M in a first-order reaction, what is the rate constant?
      5 s^-1