Using ΔHf0 to Calculate ΔHrxn
Last Update: April 13, 2011
Enthalpies for chemical species cannot be measured directly. However, we can use standard enthalpies of formation,ΔHf0, as functional equivalents of a substance’s enthalpy. This is because enthalpy is a state function and we define Δi of an element to be zero when it is in its standard state.
To calculate ΔH for a reaction (ΔHrxn0), we simply need to use Eqn. 1.
| (1) |
So, for example ΔHrxn0 for the reaction HCl (aq) + NaOH (aq) ® H2O (l) + NaCl (aq) would be Eqn. 2.
| ΔHrxn0 = (1 mole) ΔHf0(H2O, l) + (1 mole) ΔHf0(NaCl, aq) – (1 mole) ΔHf0(HCl, aq) – (1 mole)ΔHf0(NaOH, aq) | (2) |
We could also use the net ionic equation to calculate ΔHrxn0. The ΔHf0 for NaCl (aq), HCl (aq) and NaOH (aq) includeΔHf0 for the ions that they dissociate into in aqueous solution. But since the Cl– and Na+ are spectator ions, their ΔHf0do not need to be included in the overall calculation of ΔHrxn0 . So, ΔHrxn0 for the reaction HCl (aq) + NaOH (aq) ®H2O (l) + NaCl (aq) is the same as for the reaction H+ (aq) + OH– (aq) ® H2O (l), which is shown in Eqn. 3.
| ΔHrxn0 = (1 mole) ΔHf0(H2O, l) – (1 mole) ΔHf0(H+, aq) – (1 mole) ΔHf0(OH–, aq) | (3) |