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Science Chemistry EBK GENERAL CHEMISTRY

The value of K at 100 ∘ C needs to be determined. Concept introduction: The Gibb’s equation of thermodynamic purposed a relation between ΔS , ΔH and ΔG with Temperature. The mathematical expression of Gibb’s equation can be written as ΔrG ° = ΔrH ° - TΔrS ° With the help of this equation, one can predict the change in ΔS , ΔH and ΔG . ΔrH° = ΔrH°(product) - ΔrH°(reactant) ΔrG° = ΔrG°(product) - ΔrG°(reactant) The relation between equilibrium constant and Δ rG ° can be written as ΔrG° = - 2 .303 RT log K The Van’t Hoff equation can be show as: ln ( K1 K2 ) = ΔrH° R ( 1 T2 - 1 T1 ) With the help of equation, one can calculate the equilibrium constant at different temperature values.

The value of K at 100 ∘ C needs to be determined. Concept introduction: The Gibb’s equation of thermodynamic purposed a relation between ΔS , ΔH and ΔG with Temperature. The mathematical expression of Gibb’s equation can be written as ΔrG ° = ΔrH ° - TΔrS ° With the help of this equation, one can predict the change in ΔS , ΔH and ΔG . ΔrH° = ΔrH°(product) - ΔrH°(reactant) ΔrG° = ΔrG°(product) - ΔrG°(reactant) The relation between equilibrium constant and Δ rG ° can be written as ΔrG° = - 2 .303 RT log K The Van’t Hoff equation can be show as: ln ( K1 K2 ) = ΔrH° R ( 1 T2 - 1 T1 ) With the help of equation, one can calculate the equilibrium constant at different temperature values.

Solution Summary: The author explains the Gibb's equation of thermodynamic purposed a relation between S,

EBK GENERAL CHEMISTRY

EBK GENERAL CHEMISTRY

11th Edition

ISBN: 9780133400588

Author: Bissonnette

Publisher: VST

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Chapter 13, Problem 70E

Interpretation Introduction

Interpretation:

The value of K at 100 ∘C needs to be determined.

Concept introduction:

The Gibb’s equation of thermodynamic purposed a relation between ΔS, ΔH and ΔG with Temperature. The mathematical expression of Gibb’s equation can be written as

ΔrG° = ΔrH° - TΔrS°

With the help of this equation, one can predict the change in ΔS, ΔH and ΔG.

ΔrH° = ΔrH°(product) - ΔrH°(reactant) ΔrG° = ΔrG°(product) - ΔrG°(reactant)

The relation between equilibrium constant and ΔrG° can be written as

ΔrG° = - 2.303 RT log K

The Van’t Hoff equation can be show as:

ln(K1K2) = ΔrH°R(1T2-1T1)

With the help of equation, one can calculate the equilibrium constant at different temperature values.

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Chapter 13, Problem 69E

Chapter 13, Problem 71E

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Chapter 13 Solutions

EBK GENERAL CHEMISTRY

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