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Science Chemistry Chemistry: The Molecular Science

The time taken after starting the reaction to reach the concentration 0.0100 M has to be calculated. Concept Introduction: The integrated rate equation for first order reaction is given below. λ t = ln [ A ] o [ A ] t Where, λ is rate constant/ decay constant t is time taken to change the concentration from [ A ] o t o [ A ] t [ A ] o is initial concentration of A [ A ] t is final concentration A Half-life of a first order reaction can be calculated using following equation. t 1 2 = 0.693 λ

The time taken after starting the reaction to reach the concentration 0.0100 M has to be calculated. Concept Introduction: The integrated rate equation for first order reaction is given below. λ t = ln [ A ] o [ A ] t Where, λ is rate constant/ decay constant t is time taken to change the concentration from [ A ] o t o [ A ] t [ A ] o is initial concentration of A [ A ] t is final concentration A Half-life of a first order reaction can be calculated using following equation. t 1 2 = 0.693 λ

Solution Summary: The author explains the integrated rate equation for first order reaction. The time taken to reach the concentration is 0.0100M.

Chemistry: The Molecular Science

Chemistry: The Molecular Science

5th Edition

ISBN: 9781285199047

Author: John W. Moore, Conrad L. Stanitski

Publisher: Cengage Learning

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Chapter 11, Problem 110QRT

Interpretation Introduction

Interpretation:

The time taken after starting the reaction to reach the concentration 0.0100 M has to be calculated.

Concept Introduction:

The integrated rate equation for first order reaction is given below.

λt=ln [A]o[A]t

Where,

    λ is rate constant/ decay constant

    t is time taken to change the concentration from [A]o to [A]t

    [A]o is initial concentration of A

    [A]t is final concentration A

Half-life of a first order reaction can be calculated using following equation.

t12=0.693λ

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Chapter 11, Problem 109QRT

Chapter 11, Problem 111QRT

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Chemistry: The Molecular Science

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