Explanation Given Information: The given time and concentration of the reactant data is as follows: Concentration of A ( M ) Time ( sec ) 0.88 0 0.62 50 0.44 100 0.31 150 The reaction is a first-order reaction. The given reaction is, A → Product The slope of the tangent line of a concentration versus time curve is an instantaneous rate of reaction at the point where the tangent line touches the curve. r = − d [ A ] d t The rate law expression for first-order reaction is, r = k [ A ] Therefore, the formula for the instantaneous rate of reaction is, − d [ A ] d t = k [ A ] The initial concentration of A at 0 sec is 0.88 M and the concentration of A at 100 sec is 0.44 M . For the first-order reaction, the integrated rate law expression is, k = 1 t ln ( [ A ] 0 [ A ] t ) Where, k is rate constant

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Author: Bissonnette

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Chapter 20, Problem 107SAE

Interpretation Introduction

Interpretation:

The instantaneous rate of decomposition at 100 sec should be calculated.

Concept introduction:

The rate of the reaction is a speed of the reaction at which it proceeds and it depends upon the concentration of reactants at that time.

The formula to calculate the instantaneous rate of reaction is,

r=−d[A]dt

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Chapter 20, Problem 106SAE

Chapter 20, Problem 108SAE

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Chapter 20 Solutions

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Solution Summary: The author explains that the instantaneous rate of decomposition at 100mathrmsec is a speed of the reaction at which it proceeds and it depends upon the concentration of reactants

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Chapter 20 Solutions