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Science Chemistry EBK INTRO.CHEMISTRY (NASTA EDITION)

The base with relatively strong conjugate acid should be determined. Concept Introduction: Strength of conjugate acid of a base is derived from its k b value. If a base has a relatively higher k b value, that means the base reacts with water forming more OH- ions and conjugate acid. If the k b value is smaller formation of OH- ions and the conjugate acid is smaller. Thus, which can be used to derive the strength of the base. Higher the k b , higher the formation of OH- ions and higher the strength of the base and on the other hand lower the k b , lower the formation of OH- ions and lower the strength of the base. On the other hand, k a values determine the strength of an acid. Higher the k a , stronger the acid and lower the k a , weaker the acid. Normally if the k a >1, it is considered as a strong acid and if k b >10-14, it is considered as a relatively stronger base (effective base). k w = k a × k b .

The base with relatively strong conjugate acid should be determined. Concept Introduction: Strength of conjugate acid of a base is derived from its k b value. If a base has a relatively higher k b value, that means the base reacts with water forming more OH- ions and conjugate acid. If the k b value is smaller formation of OH- ions and the conjugate acid is smaller. Thus, which can be used to derive the strength of the base. Higher the k b , higher the formation of OH- ions and higher the strength of the base and on the other hand lower the k b , lower the formation of OH- ions and lower the strength of the base. On the other hand, k a values determine the strength of an acid. Higher the k a , stronger the acid and lower the k a , weaker the acid. Normally if the k a >1, it is considered as a strong acid and if k b >10-14, it is considered as a relatively stronger base (effective base). k w = k a × k b .

Solution Summary: The author explains that the strength of a base is derived from its k b value, which means the base reacts with water forming more OH-ions and conjugate acid.

EBK INTRO.CHEMISTRY (NASTA EDITION)

EBK INTRO.CHEMISTRY (NASTA EDITION)

9th Edition

ISBN: 9781337678032

Author: ZUMDAHL

Publisher: CENGAGE CO

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Chapter 16, Problem 93AP

Interpretation Introduction

Interpretation:

The base with relatively strong conjugate acid should be determined.

Concept Introduction:

Strength of conjugate acid of a base is derived from its k_b value. If a base has a relatively higher k_b value, that means the base reacts with water forming more OH- ions and conjugate acid. If the k_b value is smaller formation of OH- ions and the conjugate acid is smaller. Thus, which can be used to derive the strength of the base. Higher the k_b, higher the formation of OH- ions and higher the strength of the base and on the other hand lower the k_b, lower the formation of OH- ions and lower the strength of the base.

On the other hand, k_a values determine the strength of an acid. Higher the k_a, stronger the acid and lower the k_a, weaker the acid. Normally if the k_a >1, it is considered as a strong acid and if k_b >10-14, it is considered as a relatively stronger base (effective base).

kw=ka×kb.

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Chapter 16, Problem 92AP

Chapter 16, Problem 94AP

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Chapter 16 Solutions

EBK INTRO.CHEMISTRY (NASTA EDITION)

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