JCE 2004 (81) 606 [Apr] The Gibbs Free Energy of a Chemical Reaction System As a Function of the Extent of Reaction and the Prediction of Spontaneity


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Home > JCE Print > Journal of Chemical Education > Issues > 2004 > April >

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JCE SymMath: Symbolic Mathematics in Chemistry

The Gibbs Free Energy of a Chemical Reaction System As a Function of the Extent of Reaction and the Prediction of Spontaneity

Arthur Ferguson
Department of Chemistry, Worcester State College, Worcester, MA 01602-2597

April 2004
Vol. 81 No. 4
p. 606

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Students often have a very simplistic idea of the relationship between the value of ΔGº for a reaction and the reaction's spontaneity: if ΔGº is negative, the reaction is spontaneous; if it is positive, the reaction is not spontaneous and in fact is anti spontaneous, going spontaneously in the reverse direction. This exercise is designed to help students develop a more nuanced understanding of the relationship between Δ_rxnGº and spontaneity through the creation of a graph of G for a reaction mixture vs. the extent of reaction, ξ, and an exploration of how the shape of that graph is affected by the value of Δ_rxnGº (Figure 1).

Figure 1. The free energy, G kJ/mole, of a reaction as a function of the extent of that reaction ξ.

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Citation	Ferguson, Arthur. J. Chem. Educ. 2004 81 606.
Keywords	Computer Assisted Instruction; Equilibrium; Physical Chemistry; Symbolic Mathematics*; Thermodynamics; Undergraduate Research
History	Created: Last Updated:	March 3, 2004 February 23, 2005


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