Unit 9: Topic 2 - Absolute Entropy and Entropy Change Flashcards
How can we calculate the entropy change in a reaction?
Given the absolute entropies of each of the reactants and products in a reaction, we can calculate the change in entropy by subtracting the total absolute entropy of the reactants from the total absolute entropy of the products.
The absolute entropies of NH3, H2, and N2 are 192.5 J/mol K, 130.6 J/mol K, and 191.5 J/mol K, respectively. For the reaction N2(g) + 3H2(g) <–> 2NH3(g), what is the change in entropy?
We have to subtract the absolute entropies of the reactants [1]N2 and [3]H2 from the absolute entropy of the product [2]NH3. Thus, we get 2(192.5) - [191.5 + 3(130.6)] = -198.3 J/mol K. The negative sign indicates a decrease in entropy, which makes sense because we begin with 4 moles of gas and end with only 2 moles of gas.
