The voltage produced when CO reacts with O 2 to produce CO 2 needs to be calculated given that all the gases are at a pressure of 1 atm and at a temperature of 1000 °C. Concept introduction: The change in the Gibbs free energy is that Δ G is a thermodynamic function which governs the spontaneity of a chemical reaction . If Δ G is negative the reaction is spontaneous, positive value indicated that the reaction is non-spontaneous and if Δ G = 0, then the reaction is said to be at equilibrium. The standard Gibbs free energy ΔG 0 for a given chemical reaction can be expressed as a function of temperature, T via the Gibbs-Helmholtz equation: ΔG 0 = ΔH 0 - TΔS 0 -------(1) where, ΔH 0 is the standard enthalpy change, and ΔS 0 is the standard entropy change It is also related to the standard voltage (E°) by the equation: ΔG 0 = -nFE 0 -------(2) where n = number of electrons, F = Faraday constant (96500 C) The cell voltage under non-standard conditions (E) is related to the standard voltage (E°) via the Nernst equation: E = E 0 - 0 .0257 n lnQ --------(3) where n = number electrons involved in the redox reaction Q = reaction quotient = [Products] [Reactants]

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Chapter 17, Problem 92QAP

Interpretation Introduction

Interpretation:

The voltage produced when CO reacts with O₂ to produce CO₂ needs to be calculated given that all the gases are at a pressure of 1 atm and at a temperature of 1000 °C.

Concept introduction:

The change in the Gibbs free energy is that Δ G is a thermodynamic function which governs the spontaneity of a chemical reaction. If Δ G is negative the reaction is spontaneous, positive value indicated that the reaction is non-spontaneous and if Δ G = 0, then the reaction is said to be at equilibrium.

The standard Gibbs free energy ΔG0 for a given chemical reaction can be expressed as a function of temperature, T via the Gibbs-Helmholtz equation:

ΔG0 = ΔH0 - TΔS0 -------(1)

where, ΔH0 is the standard enthalpy change, and ΔS0 is the standard entropy change

It is also related to the standard voltage (E°) by the equation:

ΔG0 = -nFE0 -------(2)where n = number of electrons, F = Faraday constant (96500 C)

The cell voltage under non-standard conditions (E) is related to the standard voltage (E°) via the Nernst equation:

E = E0 - 0.0257nlnQ --------(3)where n = number electrons involved in the redox reactionQ = reaction quotient = [Products][Reactants]

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