The value of ΔG° should be obtained for the reaction in problem (4) at 200 °C. Concept introduction: The standard change in Gibb’s free energy is calculated by following formula: Δ G 0 = Δ H 0 − T Δ S 0 Where H is enthalpy, T is temperature and S is entropy of the reaction in standard condition. Further, the standard change in enthalpy and entropy for reactions are obtained as: ΔH 0 = ∑ ΔH f(products) 0 - ∑ ΔH f(reactants) 0 ΔS 0 = ∑ ΔS (products) 0 - ∑ ΔS (reactants) 0

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Chapter 20, Problem 6QAP

Interpretation Introduction

Interpretation:

The value of ΔG° should be obtained for the reaction in problem (4) at 200 °C.

Concept introduction:

The standard change in Gibb’s free energy is calculated by following formula:

ΔG0=ΔH0−TΔS0

Where H is enthalpy, T is temperature and S is entropy of the reaction in standard condition.

Further, the standard change in enthalpy and entropy for reactions are obtained as:

ΔH0=∑ΔHf(products)0-∑ΔHf(reactants)0ΔS0=∑ΔS(products)0-∑ΔS(reactants)0

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