D20.4 Standard Formation Enthalpy

Data derived from calorimetric measurements for many different chemical reactions, that is from many thermochemical expressions, can be summarized in a table of standard formation enthalpies and used to calculate accurate enthalpy changes for a variety of chemical reactions. A standard formation enthalpy, ΔfH°, is the enthalpy change for a reaction in which exactly one mole of a pure substance in a specified state (s, l, or g) is formed from free elements in their most stable states under standard-state conditions. ΔfH° is also referred to as the standard heat of formation.

For example, ΔfH° of CO2(g) at 25 °C is −393.5 kJ/mol. This is the enthalpy change for the exothermic reaction:

C(s, graphite) + O2(g) ⟶ CO2(g)          ΔfH° = −393.5 kJ/mol (25 °C)

The gaseous reactant and product are at a pressure of 1 bar, the carbon is present as solid graphite, which is the most stable form of carbon under standard-state conditions.

For nitrogen dioxide, NO2(g), ΔfH° is 33.2 kJ/mol at 25 °C:

½ N2(g) + O2(g) ⟶ NO2(g)          ΔfH° = +33.2 kJ/mol (25 °C)

A reaction equation with ½ mol of N2 and 1 mol of O2 is appropriate in this case because the standard enthalpy of formation always refers to formation of 1 mol of the substance; here, it is 1 mol NO2(g).

By definition, the ΔfH° of an element in its most stable form under standard conditions is 0 kJ/mol. A table of ΔfH° values for many common substances can be found in the Appendix.

Activity: Equations for Standard Formation Enthalpy

A simple calculation can be used to determine the ΔrH° of any reaction if the ΔfH° of the reactants and products are available. The ΔrH° of the overall reaction is equal to the sum of all the standard formation enthalpies of the products minus the sum of all the standard formation enthalpies of the reactants:

ΔrH° = ∑ΔfH°(products) – ∑ΔfH°(reactants)

 

Exercise: Using Standard Formation Enthalpies

Activity: Hess’s Law and Standard Formation Enthalpies

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