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Science Chemistry Chemistry Principles And Practice

K a for the conjugate acid of NH 3 has to be determined. Also, whether K a and K b for NH 3 and NH 2 − can be calculated from K b of NH 3 and K w has to be determined. Concept Introduction: K a is defined as the acid dissociation constant in conjugate acid-base pairs. K b is defined as the base ionization constant in acid-base pairs. K w is the equilibrium constant for water. At 25 ° C , K w is equal to 1.0 × 10 − 14 . The expression for relation between K b and K a is as follows: K a ⋅ K b = K w (1) At 25 ° C , K w is equal to 1.0 × 10 − 14 , the equation (1) will be modified as follows: K a ⋅ K b = 1.0 × 10 − 14 (2)

K a for the conjugate acid of NH 3 has to be determined. Also, whether K a and K b for NH 3 and NH 2 − can be calculated from K b of NH 3 and K w has to be determined. Concept Introduction: K a is defined as the acid dissociation constant in conjugate acid-base pairs. K b is defined as the base ionization constant in acid-base pairs. K w is the equilibrium constant for water. At 25 ° C , K w is equal to 1.0 × 10 − 14 . The expression for relation between K b and K a is as follows: K a ⋅ K b = K w (1) At 25 ° C , K w is equal to 1.0 × 10 − 14 , the equation (1) will be modified as follows: K a ⋅ K b = 1.0 × 10 − 14 (2)

Solution Summary: The author explains that K_a is defined as the acid dissociation constant in conjugate acid-base pairs, and

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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Question

Chapter 15, Problem 15.16QE

Interpretation Introduction

Interpretation:

Ka for the conjugate acid of NH3 has to be determined. Also, whether Ka and Kb for NH3 and NH2− can be calculated from Kb of NH3 and Kw has to be determined.

Concept Introduction:

Ka is defined as the acid dissociation constant in conjugate acid-base pairs. Kb is defined as the base ionization constant in acid-base pairs. Kw is the equilibrium constant for water. At 25°C, Kw is equal to 1.0×10−14.

The expression for relation between Kb and Ka is as follows:

Ka⋅Kb=Kw (1)

At 25°C, Kw is equal to 1.0×10−14, the equation (1) will be modified as follows:

Ka⋅Kb=1.0×10−14 (2)

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Chapter 15, Problem 15.15QE

Chapter 15, Problem 15.17QE

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Chemistry Principles And Practice

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