5.7 Catalysis

    Cards (58)

    • Catalysts affect the reaction rate by lowering the activation energy.
    • Match the type of catalyst with its interaction with reactants:
      Homogeneous ↔️ Reacts directly in solution
      Heterogeneous ↔️ Reacts on the surface
    • The first step in the mechanism of catalyst action is adsorption
    • Match the effect of a catalyst with its absence:
      Lowers activation energy ↔️ Higher activation energy
      Increases reaction rate ↔️ Slower reaction rate
      Catalyst is not consumed ↔️ Catalyst is not present
    • An example of a heterogeneous catalyst is solid metal catalysts in hydrogenation reactions.
    • The activation energy is the minimum energy required for the reactants to reach the transition state.

      True
    • Match the industrial or biological example with the correct catalyst:
      Petroleum cracking ↔️ Zeolites
      Metabolic processes ↔️ Enzymes
    • One method of catalyst regeneration is solvent washing.
    • Reactive poisoning involves the chemical reaction of the poison with the catalyst, altering its structure
    • What is the mechanism of adsorptive poisoning?
      Physical blockage of active sites
    • Heating a sulfur-poisoned platinum catalyst in oxygen converts sulfur compounds to sulfur dioxide.

      True
    • Platinum group metal catalysts in catalytic converters convert harmful pollutants into less toxic substances.

      True
    • What happens to the activation energy of a reaction when a catalyst is used?
      It decreases
    • What is the minimum energy required for reactants to reach the transition state and form products?
      Activation energy
    • What is activation energy?
      Minimum energy for reaction
    • Catalysts are consumed during a reaction.
      False
    • What is catalyst poisoning?
      Substance blocks active sites
    • Match the type of poisoning with its mechanism:
      Adsorptive poisoning ↔️ Physical blockage of active sites
      Reactive poisoning ↔️ Chemical reaction with catalyst
    • Zeolite catalysts in petroleum cracking break down long hydrocarbon chains
    • What is a catalyst and what is its role in chemical reactions?
      Increases reaction rate without consumption
    • What is the key difference between homogeneous and heterogeneous catalysts?
      Phase relative to reactants
    • Arrange the steps in the mechanism of catalyst action:
      1️⃣ Adsorption
      2️⃣ Activation
      3️⃣ Reaction
      4️⃣ Desorption
    • What is the role of a catalyst in a chemical reaction?
      Lower activation energy
    • Homogeneous catalysts exist in the same phase as the reactants, allowing direct interactions.
      True
    • Steps in the hydrogenation of alkenes using platinum as a catalyst:
      1️⃣ Platinum surface adsorbs the alkene and hydrogen
      2️⃣ Bond breaking and formation occur
    • Catalysts increase the overall reaction rate by providing an alternative pathway with lower activation energy.
    • Reactive poisoning occurs when a poison chemically reacts with the catalyst, altering its structure.
      True
    • What type of poisoning involves the physical blockage of active sites by poison molecules?
      Adsorptive poisoning
    • Sulfur compounds on platinum catalysts can be removed by heating in an oxygen-rich atmosphere
    • Catalyst regeneration involves removing the poison to restore catalyst functionality
    • The Haber-Bosch process uses a heterogeneous iron catalyst to produce ammonia from nitrogen and hydrogen
    • A catalyst increases the rate of a chemical reaction by providing an alternative pathway with a lower activation energy
    • Match the type of catalyst with its phase and example:
      Homogeneous ↔️ Same phase as reactants ||| Enzymes in biochemical reactions
      Heterogeneous ↔️ Different phase from reactants ||| Solid metal catalysts in hydrogenation reactions
    • The first step in the mechanism of catalyst action is the adsorption of reactants onto the catalyst surface
    • Steps in the mechanism of catalyst action
      1️⃣ Adsorption of reactants
      2️⃣ Lowering activation energy
      3️⃣ Chemical transformation on catalyst
      4️⃣ Desorption of products
    • Match the catalyst with its application:
      Zeolites ↔️ Petroleum cracking
      Enzymes ↔️ Metabolic processes
    • Reactive poisoning involves a chemical reaction with the catalyst.
      True
    • How can sulfur compounds be removed from platinum catalysts?
      Heating in oxygen-rich atmosphere
    • What type of catalysts are enzymes?
      Biological catalysts
    • Catalysts increase the activation energy of a reaction.
      False
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