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Science Chemistry EBK CHEMICAL PRINCIPLES

The value of K sp for iron (II) sulfide from the given data needs to be determined. Concept introduction: Cell potential is the difference in potential between its cathode and anode. The overall cell potential can be calculated by using the equation, . E 0 Cell = E 0 reduced − E 0 oxidised The K sp value for equilibrium can be calculated by the following relation, log K sp = n E 0 c e l l 0.0591 Here, nis number of electrons involved in overall reaction.

The value of K sp for iron (II) sulfide from the given data needs to be determined. Concept introduction: Cell potential is the difference in potential between its cathode and anode. The overall cell potential can be calculated by using the equation, . E 0 Cell = E 0 reduced − E 0 oxidised The K sp value for equilibrium can be calculated by the following relation, log K sp = n E 0 c e l l 0.0591 Here, nis number of electrons involved in overall reaction.

Solution Summary: The author explains the value of K_sp for iron (II) sulfide from the given data needs to be determined.

EBK CHEMICAL PRINCIPLES

EBK CHEMICAL PRINCIPLES

8th Edition

ISBN: 9781305856745

Author: DECOSTE

Publisher: CENGAGE LEARNING - CONSIGNMENT

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Chapter 11, Problem 50E

Interpretation Introduction

Interpretation: The value of Ksp for iron (II) sulfide from the given data needs to be determined.

Concept introduction: Cell potential is the difference in potential between its cathode and anode.

The overall cell potential can be calculated by using the equation,

. E0Cell= E0reduced − E0oxidised

The Ksp value for equilibrium can be calculated by the following relation,

logKsp= nE0cell0.0591

Here, nis number of electrons involved in overall reaction.

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Chapter 11, Problem 49E

Chapter 11, Problem 51E

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Chapter 11 Solutions

EBK CHEMICAL PRINCIPLES

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