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Science Chemistry Bundle: Physical Chemistry, 2nd + Student Solutions Manual

The side that is favored for equilibrium on increasing temperature for an exothermic process is to be explained. Concept introduction: The temperature is related to equilibrium constant by the standard enthalpy of reaction. This Δ rxn H ° is given the formula written below. Δ rxn H ° = Δ products H ° − Δ reactants H ° The temperature is related to equilibrium constant by the relation given below. ∂ ln K ∂ T = Δ rxn H ° R T 2 In the above relation, K is the equilibrium constant, Δ rxn H ° is standard enthalpy of reaction, T is temperature and R is gas constant. The above equation is known as van’t Hoff equation.

The side that is favored for equilibrium on increasing temperature for an exothermic process is to be explained. Concept introduction: The temperature is related to equilibrium constant by the standard enthalpy of reaction. This Δ rxn H ° is given the formula written below. Δ rxn H ° = Δ products H ° − Δ reactants H ° The temperature is related to equilibrium constant by the relation given below. ∂ ln K ∂ T = Δ rxn H ° R T 2 In the above relation, K is the equilibrium constant, Δ rxn H ° is standard enthalpy of reaction, T is temperature and R is gas constant. The above equation is known as van’t Hoff equation.

Solution Summary: The author explains that the temperature is related to equilibrium constant by the standard enthalpy of reaction.

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

2nd Edition

ISBN: 9781285257594

Author: David W. Ball

Publisher: Cengage Learning

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Chapter 5, Problem 5.55E

(a)

Interpretation Introduction

Interpretation: The side that is favored for equilibrium on increasing temperature for an exothermic process is to be explained.

Concept introduction: The temperature is related to equilibrium constant by the standard enthalpy of reaction. This ΔrxnH° is given the formula written below.

ΔrxnH°=ΔproductsH°−ΔreactantsH°

The temperature is related to equilibrium constant by the relation given below.

∂lnK∂T=ΔrxnH°RT2

In the above relation, K is the equilibrium constant, ΔrxnH° is standard enthalpy of reaction, T is temperature and R is gas constant. The above equation is known as van’t Hoff equation.

(b)

Interpretation Introduction

Interpretation: The side that is favored for equilibrium on increasing temperature for an endothermic process is to be stated.

Concept introduction: The temperature is related to equilibrium constant by the standard enthalpy of reaction. This ΔrxnH° is given the formula written below.

ΔrxnH°=ΔproductsH°−ΔreactantsH°

The temperature is related to equilibrium constant by the relation given below.

∂lnK∂T=ΔrxnH°RT2

In the above relation, K is the equilibrium constant, ΔrxnH° is standard enthalpy of reaction, T is temperature and R is gas constant. The above equation is known as van’t Hoff equation.

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Chapter 5, Problem 5.54E

Chapter 5, Problem 5.56E

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Chapter 5 Solutions

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

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