Entropy Calculation in Chemical Reaction

Entropy Calculation in Chemical Reaction

For the process 2SO2(g) + O2(g) → 2SO3(g), S = –187.9 J/K and H = –198.4 kJ at 297.0 K are known. What is the entropy of this reaction? Use G = H - TS.

You are given a process of 2SO₂(g) + O₂(g) → 2SO₃(g) with ΔS = –187.9 J/K and ΔH = –198.4 kJ at 297.0 K. You are asked to find the entropy of this reaction. The entropy of this reaction is ΔS = –187 .9 J/K. ΔS stands for change in entropy and ΔH stands for change in enthalpy. It follows the second law of thermodynamics, the entropy in which all things go into the chaotic state from a higher form into a lower form. A chemical reaction has an increase in entropy and a decrease in enthalpy. A chemical reaction is spontaneous if it has an entropy greater than zero and an enthalpy less than zero. The chemical reaction given is spontaneous.

For the process 2SO2(g) + O2(g) → 2SO3(g), S = –187.9 J/K and H = –198.4 kJ at 297.0 K are known. What is the entropy of this reaction?

The entropy of this reaction is ΔS = –187.9 J/K.

← 24 95 percentage by mass of ammonium ions determination How dilution equations work in chemistry →