CHAP. 5: THERMOCHEMISTRY [CONTENTS] 130
Example
The chemical reaction
CH 4 +CO 2 = 2CO+ 2H 2 (5.8)
is the linear combination of the reactionsC+ 2H 2 = CH 4 , (5.9)C+1
2
O 2 = CO, (5.10)
C+O 2 = CO 2. (5.11)
We obtain equation (5.8) by subtracting equations (5.9) and (5.11) from twice equation (5.10).5.1.2 Hess’s law
If a chemical reactionRis a linear combination of reactionsR 1 ,R 2 ,... , its reaction enthalpy
is the same linear combination of the reaction enthalpies of the reactionsR 1 ,R 2 ,...
Note:Hess’s law is a consequence of the fact that enthalpy is a state function. An analogy
of Hess’s law also holds for other thermodynamic quantities of reaction, e.g. the reaction
entropy or the Gibbs energy.Example
At temperatureT= 298 K and pressurep= 101.325 kPa, the reaction enthalpy of the reaction
(5.9) equals−74.852 kJ/mol, that of the reaction (5.10) equals−110.529 kJ/mol, and that of
the reaction (5.11) equals−393.522 kJ/mol. Calculate the reaction enthalpy of the reaction
(5.8).Solution
Based on the result of the preceding example, the reaction enthalpy is2 ×(− 110 .529) + (−1)×(− 74 .852) + (−1)×(− 393 .522) = 247. 316 kJ mol−^1.