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From the given data, the molar solubility of ammonia in nickel iodate has to be calculated. Concept introduction: Equilibrium constant ( K c ) is the ratio of the rate constants of the forward and reverse reactions at a given temperature. In other words it is the ratio of the concentrations of the products to concentrations of the reactants. Each concentration term is raised to a power, which is same as the coefficients in the chemical reaction . Consider the reaction where A reacts to give B. A ⇌ B Rate of forward reaction = Rate of reverse reaction k f [ A ] =k r [ B ] On rearranging, [ A ] [ B ] = k f k r =K c Where, k f is the rate constant of the forward reaction. k r is the rate constant of the reverse reaction. K c is the equilibrium constant.

From the given data, the molar solubility of ammonia in nickel iodate has to be calculated. Concept introduction: Equilibrium constant ( K c ) is the ratio of the rate constants of the forward and reverse reactions at a given temperature. In other words it is the ratio of the concentrations of the products to concentrations of the reactants. Each concentration term is raised to a power, which is same as the coefficients in the chemical reaction . Consider the reaction where A reacts to give B. A ⇌ B Rate of forward reaction = Rate of reverse reaction k f [ A ] =k r [ B ] On rearranging, [ A ] [ B ] = k f k r =K c Where, k f is the rate constant of the forward reaction. k r is the rate constant of the reverse reaction. K c is the equilibrium constant.

General Chemistry

General Chemistry

11th Edition

ISBN: 9781305859142

Author: Ebbing, Darrell D., Gammon, Steven D.

Publisher: Cengage Learning,

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Chapter 17, Problem 17.118QP

Interpretation Introduction

Interpretation:

From the given data, the molar solubility of ammonia in nickel iodate has to be calculated.

Concept introduction:

Equilibrium constant (Kc) is the ratio of the rate constants of the forward and reverse reactions at a given temperature. In other words it is the ratio of the concentrations of the products to concentrations of the reactants. Each concentration term is raised to a power, which is same as the coefficients in the chemical reaction.

Consider the reaction where A reacts to give B.

A⇌B

Rate of forward reaction = Rate of reverse reactionkf[A] =kr[B]

On rearranging,

[A] [B]=kfkr=Kc

Where,

kf is the rate constant of the forward reaction.

kr is the rate constant of the reverse reaction.

Kc is the equilibrium constant.

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Chapter 17, Problem 17.117QP

Chapter 17, Problem 17.119QP

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Chapter 17 Solutions

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