CP3 Investigating the Rate of Reaction

    Cards (47)

    • What is the rate of reaction defined as?
      Change in concentration per time
    • The formula for the rate of reaction is Rate = Δ[Reactant / Product]Δt\frac{\Delta \text{[Reactant / Product]}}{\Delta t}
    • The rate of reaction measures the speed at which reactants are converted into products.
    • The rate of reaction is expressed in units of mol/L/s or mol L<sup>-1</sup> s<sup>-1</sup>, which is equivalent to mol/L/s
    • Why is it important to choose reactants with suitable concentrations?
      To allow measurable changes
    • Extremely fast reactions may be hard to monitor accurately.
    • Match the variable in the Arrhenius equation with its definition:
      kk ↔️ Rate constant
      AA ↔️ Frequency factor
      EaE_{a} ↔️ Activation energy
      RR ↔️ Ideal gas constant
      TT ↔️ Temperature in Kelvin
    • A catalyst lowers the activation energy, thereby increasing the reaction rate
    • For a reaction producing gas, a gas syringe can measure the volume of gas produced over time.
    • What is the unit time in the formula for reaction rate?
      Seconds
    • Temperature influences reaction rates, as described by the Arrhenius equation.
    • The rate of reaction measures how fast a reaction occurs.
    • The rate of reaction is determined per unit of time.
    • Key factors to consider when investigating the rate of reaction
      1️⃣ Reactant Concentrations
      2️⃣ Reaction Speed
      3️⃣ Observability
      4️⃣ Temperature
      5️⃣ Catalyst
    • Observability is crucial for monitoring the rate of reaction.
    • Match the variables in the Arrhenius equation with their meanings:
      k ↔️ Rate constant
      A ↔️ Frequency factor
      E_{a} ↔️ Activation energy
      R ↔️ Ideal gas constant
      T ↔️ Temperature in Kelvin
    • Potassium iodide can act as a catalyst in the decomposition of hydrogen peroxide.
    • Steps to set up the reaction apparatus for measuring the rate of reaction
      1️⃣ Prepare the Reaction Vessel
      2️⃣ Assemble Concentration Measurement Equipment
      3️⃣ Ensure Temperature Control
      4️⃣ Use a Stopwatch
    • A water bath is used to keep the reaction temperature constant.
    • Match the techniques for measuring reaction rates with their applications:
      Titration ↔️ Measuring concentration by reacting with a known substance
      Spectrophotometry ↔️ Measuring absorbance of colored substances
      Gas Collection ↔️ Measuring the volume of gases produced
      Gravimetric Analysis ↔️ Measuring the mass of a precipitate
    • The Beer-Lambert Law relates absorbance to concentration and path length.
    • A negative rate of reaction indicates a decrease in reactant concentration.
    • Match the variables in the Arrhenius equation with their units:
      k ↔️ mol/L/s
      E_{a} ↔️ J/mol
      T ↔️ K
    • What is the balanced chemical equation for the decomposition of hydrogen peroxide using potassium iodide as a catalyst?
      2H2O22H2O+2H_{2}O_{2} \rightarrow 2H_{2}O +O2 O_{2}
    • The setup for measuring the reaction of hydrogen peroxide allows easy measurement of oxygen gas evolution
    • High reactant concentrations always result in reactions that are easy to monitor.
      False
    • The Arrhenius equation describes the relationship between reaction rate and temperature
    • What does the term EaE_{a} represent in the Arrhenius equation?

      Activation energy
    • A catalyst increases the reaction rate by lowering the activation energy.
    • Steps to set up a reaction apparatus for measuring reaction rates.
      1️⃣ Assemble a reaction vessel
      2️⃣ Attach equipment for measuring concentration changes
      3️⃣ Include a stopwatch or timer
      4️⃣ Use a thermometer if temperature is a variable
    • For a reaction that produces gas, a gas syringe can be used to measure the volume of gas produced over time
    • Match the technique with its description.
      Titration ↔️ React with a known substance
      Spectrophotometry ↔️ Measure absorbance of colored substances
      Gas Collection ↔️ Measure volume of gases produced
      Gravimetric Analysis ↔️ Measure mass of precipitate formed
    • Spectrophotometry is used to determine the concentration of colored substances by measuring their absorbance.
    • In titration, hydrochloric acid (HClHCl) reacts with sodium hydroxide (NaOHNaOH) to measure concentration
    • What does gravimetric analysis measure?
      Mass of precipitate formed
    • In a titration, a reactant reacts with a known substance
    • Spectrophotometry measures the concentration of colored substances by measuring their absorbance.
    • What does gas collection measure in reaction kinetics?
      Volume of gases produced
    • The decomposition of hydrogen peroxide produces water and oxygen
    • The rate of reaction is defined as the change in concentration per unit time.