Therefore, entropy decreases as the reaction proceeds.Įntropy is a state function, so the standard entropy change for a chemical reaction (Δ S° rxn) can be calculated from the difference in standard entropy between the products and the reactants. Thus, in this reaction, the reactants are more disordered than the products. There are more moles of gas in the reactants, 4 moles of gas (with 1 mole of ethylene and 3 moles of oxygen) compared to the products (only 2 moles of carbon dioxide gas), while the other product is a liquid. Recall that gases are more disordered than liquids. The negative value indicates there is a decrease in entropy.Įven without calculating the exact entropy change, the decrease in entropy can be predicted by examining the reaction. The difference between the products and the reactants equals negative 268 J/K for the standard entropy change of the combustion of ethylene. The net entropy of the products equals 567.6 J/K, and the net entropy of the reactants is 835.4 J/K. Substituting the values for molar entropies of reactants and products from the reference table yields −. Note that, unlike standard enthalpies of formation of elements, which are zero, standard molar entropies of all substances are greater than zero at 298 K. The standard entropy change for the reaction equals the sum of 2 times the standard entropy of carbon dioxide gas and 2 times the standard entropy of water, minus the sum of the standard entropy of ethylene gas and 3 times the standard entropy of oxygen. So, like enthalpy changes, entropy changes can be from calculated reference tables of standard molar entropies.įor a reaction occurring under standard conditions, the associated entropy change is determined by the difference between the sum of the standard molar entropies of the products multiplied by their stoichiometric coefficients and the sum of the standard molar entropies of the reactants multiplied by their stoichiometric coefficients.Ĭonsider the combustion of ethylene under standard conditions, where 1 mole of ethylene gas reacts with 3 moles of oxygen gas to produce 2 moles of carbon dioxide gas and 2 moles of water. Enthalpy changes associated with a chemical reaction can be measured with a calorimeter, but the entropy change associated with a reaction cannot be directly measured.Įntropy is a state function, which means that the change in entropy depends solely on the initial and final states of a system.
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