C3.2.2 Calculating Energy Changes

    Cards (34)

    • What is the term for the difference between the energy required to break bonds in reactants and the energy released when forming bonds in products?
      Energy change
    • What happens to the temperature of the surroundings in an exothermic reaction?
      Increases
    • Photosynthesis is an example of an endothermic
    • Endothermic reactions absorb energy and decrease the temperature of the surroundings.

      True
    • In which type of reaction does energy flow from the reaction to the surroundings?
      Exothermic
    • What does a negative ΔH\Delta H value indicate in a chemical reaction?

      Exothermic reaction
    • What is the formula used to calculate the energy change (ΔH\Delta H) in a chemical reaction?

      ΔH=\Delta H =HproductsHreactants H_{products} - H_{reactants}
    • HreactantsH_{reactants} represents the total energy of the reactants
    • Match the reaction type with its energy change and temperature effect:
      Exothermic ↔️ \Delta H < 0, temperature increases
      Endothermic ↔️ \Delta H > 0, temperature decreases
    • ΔH\Delta H is calculated using the bond energies of reactants and products
    • What is the sign of ΔH\Delta H in endothermic reactions?

      Positive
    • Order the examples of exothermic and endothermic reactions:
      1️⃣ Combustion
      2️⃣ Neutralisation
      3️⃣ Thermal decomposition
    • In exothermic reactions, heat is released and ΔH\Delta H is negative.

      True
    • ΔH\Delta H is calculated as the difference between the total energy of the products and the total energy of the reactants
    • What is the sign of ΔH\Delta H in exothermic reactions?

      Negative
    • Bond energies are used to calculate ΔH\Delta H in chemical reactions.

      True
    • Match the reaction type with its ΔH\Delta H and temperature change:

      Exothermic ↔️ \Delta H < 0, temperature increases
      Endothermic ↔️ \Delta H > 0, temperature decreases
    • Combustion is an example of an exothermic
    • Endothermic reactions absorb energy from the surroundings, causing the temperature to decrease.

      True
    • What happens to the energy and temperature in an exothermic reaction?
      Energy released, temperature increases
    • Neutralisation is an example of an exothermic
    • What is the energy change in an endothermic reaction?
      Positive
    • A positive ΔH\Delta H value indicates an endothermic reaction.

      True
    • HproductsH_{products} represents the total energy of the products
    • In an exothermic reaction, ΔH\Delta H is negative and the temperature increases.

      True
    • What happens to the temperature of the surroundings in an endothermic reaction?
      It decreases
    • What is the sign of ΔH\Delta H in exothermic reactions?

      Negative
    • Match the comparison features with the correct reaction type:
      Exothermic ↔️ Releases heat, \Delta H < 0
      Endothermic ↔️ Absorbs heat, \Delta H > 0
    • ΔH\Delta H is calculated using the bond energies of reactants and products
    • What happens to the temperature of the surroundings in an exothermic reaction?
      It increases
    • A negative ΔH\Delta H indicates an exothermic reaction.

      True
    • What is the sign of ΔH\Delta H in endothermic reactions?

      Positive
    • The combustion of methane has a ΔH\Delta H of -890 kJ/mol.
    • The combustion of methane is an exothermic reaction.

      True
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