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Science Chemistry Chemistry Principles And Practice

The value of equilibrium constant K c for the following reaction has to be determined. NO ( g ) + 1 2 Br 2 ( g ) ⇌ NOBr ( g ) Concept Introduction: The relation of equilibrium constant K p and K c is as follows: K p = K c ( R T ) Δ n (1) Here, Δ n is change in number of moles of gas. The formula to calculate the value of Δ n is as follows: Δ n = ( total number of moles of gas on the product side ) − ( total number of moles of gas on the reactant side ) (2) The value of Δ n can be zero, negative and positive.

The value of equilibrium constant K c for the following reaction has to be determined. NO ( g ) + 1 2 Br 2 ( g ) ⇌ NOBr ( g ) Concept Introduction: The relation of equilibrium constant K p and K c is as follows: K p = K c ( R T ) Δ n (1) Here, Δ n is change in number of moles of gas. The formula to calculate the value of Δ n is as follows: Δ n = ( total number of moles of gas on the product side ) − ( total number of moles of gas on the reactant side ) (2) The value of Δ n can be zero, negative and positive.

Solution Summary: The author explains that the value of equilibrium constant K_c for the following reaction has to be determined.

Chemistry Principles And Practice

Chemistry Principles And Practice

3rd Edition

ISBN: 9781305295803

Author: David Reger; Scott Ball; Daniel Goode

Publisher: Cengage Learning

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Chapter 14, Problem 14.25QE

Interpretation Introduction

Interpretation:

The value of equilibrium constant Kc for the following reaction has to be determined.

NO(g)+12Br2(g)⇌NOBr(g)

Concept Introduction:

The relation of equilibrium constant Kp and Kc is as follows:

Kp=Kc(RT)Δn (1)

Here, Δn is change in number of moles of gas.

The formula to calculate the value of Δn is as follows:

Δn=(total number of moles ofgas on the product side)−(total number of moles ofgas on the reactant side) (2)

The value of Δn can be zero, negative and positive.

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Chapter 14, Problem 14.24QE

Chapter 14, Problem 14.26QE

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Chapter 14 Solutions

Chemistry Principles And Practice

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