R1.2.4 – Calculating enthalpy changes
📌 Using enthalpies of combustion
ΔH
°= ∑(ΔHc° reactants) − ∑(ΔHc°products)
- This equation is easy to use when given the enthalpies of combustion to find the enthalpy change of combustion
- When given the enthalpies of combustion and asked to find the enthalpy change of formation the following steps are used
- Write down the equation corresponding to the enthalpy of formation of the compound
- Use the formula booklet to determine the enthalpies of combustion for each compound
- Multiply the enthalpy by the number of moles in a balanced reaction
- Use the formula given above
EXAMPLE :
Calculate the enthalpy of formation of glucose using the enthalpies given in section 14 of the data booklet
- 6C + 6H2 + 3O2 → (1)C6H12O2
- [6(-394) + 6(-286) + 3(0)] – [1(-2803)] = -1277 kJ mol-1
Therefore, the enthalpy of formation of one mole of glucose is -1277 kJ mol-1 (using the enthalpy of combustion)
📌 Using enthalpies of formation
ΔH°= ∑(ΔHf° products) − ∑(ΔHf°reactants)
- Similarly to the example given above, the enthalpy of formation can also be used to determine the enthalpy of combustion of a
- When given the enthalpies of combustion and asked to find the enthalpy change of formation the following steps are used
- Write down the equation corresponding to the combustion of the compound
- Use the formula booklet to determine the enthalpies of formation for each compound
- Multiply the enthalpy by the number of moles in a balanced reaction
- Use the formula given above
EXAMPLE :
Calculate the enthalpy of combustion of butane using the enthalpies given in section 13 of the data booklet
- 2C4H10 + 13O2→ 8CO2 + 10H2O
- [8(-394) + 10(-286)] – [2(−126) + 12(0)] = -5760 kJ mol-1
Therefore, the enthalpy of combustion of butane is -5760 kJ mol-1(using the enthalpy of formation)