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GCSE/Combined Science/WJEC

C5.1Exothermic vs endothermic reactions; reaction profiles; bond-energy calculations

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Notes

Energy Changes in Chemical Reactions

Exothermic and Endothermic Reactions

All chemical reactions involve energy changes. Bonds in reactants are broken (requires energy) and bonds in products are formed (releases energy). The overall energy change determines whether the reaction is exothermic or endothermic.

Exothermic reaction:

  • Energy released to the surroundings (as heat, light, sound)
  • Temperature of surroundings increases
  • Products have less energy than reactants
  • Overall: energy released > energy absorbed (bond breaking vs bond forming)

Examples: Combustion (burning), oxidation (rusting), neutralisation, respiration, many displacement reactions.

Endothermic reaction:

  • Energy absorbed from the surroundings
  • Temperature of surroundings decreases
  • Products have more energy than reactants
  • Overall: energy absorbed > energy released

Examples: Thermal decomposition, dissolving ammonium nitrate in water, photosynthesis.

Reaction Profiles (Energy Diagrams)

A reaction profile (energy level diagram) shows the energy of reactants and products plotted against the progress of the reaction (reaction coordinate).

Exothermic reaction profile:

  • Reactants are at a higher energy level than products
  • ΔH (enthalpy change) is negative (energy is released)
  • There is a hump above the reactant energy level — the activation energy (Eₐ)

Endothermic reaction profile:

  • Products are at a higher energy level than reactants
  • ΔH is positive (energy is absorbed)
  • Activation energy is shown as the hump above the reactant level

Activation energy (Eₐ): The minimum energy required by colliding particles to start a reaction. A catalyst reduces the activation energy — more particles have enough energy to react → reaction is faster.

Bond Energy Calculations

During a chemical reaction:

  1. Bond breaking requires energy (endothermic step) — energy must be supplied to overcome the forces holding atoms together
  2. Bond forming releases energy (exothermic step) — energy is released as new bonds form

Overall energy change = Energy in (bonds broken) − Energy out (bonds formed)

  • If energy in > energy out: endothermic overall (positive ΔH)
  • If energy in < energy out: exothermic overall (negative ΔH)

Worked example — Hydrogen + Chlorine → Hydrogen Chloride: H₂ + Cl₂ → 2HCl

Bond energies (kJ/mol): H−H = 436; Cl−Cl = 242; H−Cl = 431

Energy in (bonds broken):

  • 1 × H−H: 436 kJ
  • 1 × Cl−Cl: 242 kJ
  • Total in: 678 kJ

Energy out (bonds formed):

  • 2 × H−Cl: 2 × 431 = 862 kJ

ΔH = 678 − 862 = −184 kJ/mol (exothermic — negative value means energy released)

Practical Applications

Reaction typeReal-world use
Exothermic — combustionFuels (natural gas, petrol, coal) for heating and transport
Exothermic — neutralisationHand warmers (iron oxidation or calcium chloride + water)
EndothermicCold packs for sports injuries (ammonium nitrate + water)
Exothermic — respirationAll living organisms — releases energy for life processes

WJEC Exam Tip

WJEC papers frequently combine bond energy data tables with questions asking you to:

  1. Calculate ΔH using bond energies
  2. Classify the reaction as exothermic or endothermic
  3. Explain why a catalyst changes reaction rate but not ΔH

Remember: A catalyst lowers activation energy but does not change the overall energy change (ΔH) of the reaction.

AI-generated · claude-opus-4-7 · v3-wjec-combined-science

Practice questions

Try each before peeking at the worked solution.

  1. Question 13 marks

    Identify exo vs endothermic from temperature change

    Question 1 (3 marks)

    A student mixes two solutions and notices the temperature of the mixture decreases.

    (a) Is this an exothermic or endothermic reaction? (1 mark)
    (b) How does the energy of the products compare with the energy of the reactants? (1 mark)
    (c) Give one other example of this type of reaction. (1 mark)

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    AI-generated · claude-opus-4-7 · v3-wjec-combined-science

  2. Question 24 marks

    Reaction profile — drawing and labelling

    Question 2 (4 marks)

    A student says: "In an exothermic reaction, the products are at a lower energy level than the reactants."

    (a) Is the student correct? Explain your answer. (2 marks)
    (b) On an energy profile diagram, what does the 'hump' represent, and what does a catalyst do to it? (2 marks)

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    AI-generated · claude-opus-4-7 · v3-wjec-combined-science

  3. Question 35 marks

    Bond energy calculation — methane combustion

    Question 3 (5 marks)

    Use the bond energy data below to calculate the energy change (ΔH) for the complete combustion of methane.

    CH₄ + 2O₂ → CO₂ + 2H₂O

    Bond energies (kJ/mol): C−H = 412; O=O = 496; C=O = 743; O−H = 463

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    AI-generated · claude-opus-4-7 · v3-wjec-combined-science

  4. Question 43 marks

    Catalysts and activation energy

    Question 4 (3 marks)

    Explain how a catalyst increases the rate of a reaction. Why does it not change the overall energy change (ΔH) of the reaction?

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    AI-generated · claude-opus-4-7 · v3-wjec-combined-science

  5. Question 56 marks

    Evaluate uses of exo/endothermic reactions — extended response

    Question 5 (6 marks)

    Evaluate the use of exothermic and endothermic reactions in everyday applications. Use examples and explain the energy changes involved. (WJEC 6-mark extended response)

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    AI-generated · claude-opus-4-7 · v3-wjec-combined-science

Flashcards

C5.1 — Exothermic vs endothermic reactions; reaction profiles; bond-energy calculations

10-card SR deck for WJEC Eduqas GCSE Combined Science topic C5.1

10 cards · spaced repetition (SM-2)

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