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To determine the signs of enthalpy and entropy for the reacting system. The temperature at which the denaturation becomes spontaneous is to be calculated. Concept introduction: The equation of Gibbs free energy is represented as: Δ G = Δ H - T Δ S Here, Δ G is theGibbs free energy, Δ H is theenthalpy of the reaction, T is thetemperature, and Δ S is theentropy. Gibbs free energy is zero when the system is at equilibrium. For spontaneous reaction ΔG is negative.

To determine the signs of enthalpy and entropy for the reacting system. The temperature at which the denaturation becomes spontaneous is to be calculated. Concept introduction: The equation of Gibbs free energy is represented as: Δ G = Δ H - T Δ S Here, Δ G is theGibbs free energy, Δ H is theenthalpy of the reaction, T is thetemperature, and Δ S is theentropy. Gibbs free energy is zero when the system is at equilibrium. For spontaneous reaction ΔG is negative.

Solution Summary: The author explains that Gibbs free energy is zero when the system is at equilibrium, and entropy is negative for spontaneous reaction.

Chemistry

4th Edition

ISBN: 9780078021527

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Chapter 18, Problem 36QP

Interpretation Introduction

Interpretation:

To determine the signs of enthalpy and entropy for the reacting system. The temperature at which the denaturation becomes spontaneous is to be calculated.

Concept introduction:

The equation of Gibbs free energy is represented as:

ΔG = ΔH-TΔS

Here, ΔG is theGibbs free energy, ΔH is theenthalpy of the reaction, T is thetemperature, and ΔS is theentropy.

Gibbs free energy is zero when the system is at equilibrium.

For spontaneous reaction ΔG is negative.

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Chapter 18, Problem 35QP

Chapter 18, Problem 37QP

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