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Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry PDF Download

Integrated Rate Law Expressions

Integrated rate law expression provides the predicted temporal evolution in reactant and product concentrations for reactions having an assumed order dependence.

Zero-Order Reaction

  • The rate of reaction is independent of the concentration of the reactants in these reactions.
  • A change in the concentration of the reactants has no effect on the speed of the reaction
  • Examples of these types of reactions include the enzyme-catalyzed oxidation of CH3CH2OH (ethanol) to CH3CHO (acetaldehyde).

Consider the following elementary reaction

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
For zero-order reaction, the rate law is

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry 

k is rate constant.

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

⇒ –d[A] = k dt

If at t = 0, the initial concentration is [A]0 and the concentration at t = t, is [A], then integration yields

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

⇒ [A]0 – [A] = kt
This is an integrated rate equation for a zero-order reaction in terms of reactant.

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

= k d[P] = k dt
at              t = 0,  [P] = 0
and at        t = t, [P] = [P]
then integration yields

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

[P] = kt
This is an integrated rate law equation for a zero-order reaction in terms of product.
i.e. [A]0 – [A] = kt = [P]

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

Graphical Representation of Zero-Order Reaction

Graph of Reactant vs Time.

[A]0 – [A] = kt
[A] = –kt + [A]0
y = mx + c

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

Graph of Product vs Time.

[P] = kt

y = mx

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry


Concentration of Product vs Time.

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

[A]0 – [A] = 2kt …(i)

When t = 0 then [P] = 0 and t = t then [P] = [P]

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

[P] = 3kt     …(ii)

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry         …(iii)

 

Problem. Find the integrated rate law expression for an elementary zero-order reaction given below.

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

Sol.

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry 

The rate law of the above elementary reaction is given below

 Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

⇒  – [[A] – [A]0] = kt
        [A]0 – [A] = kt    …(i)


Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry   …(ii)
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry
Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

[P] = kt      …(iii)

From equation (i), (ii) & (iii) we get

Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry

The document Integrated Rate Law Expression of Zero Order Reaction | Physical Chemistry is a part of the Chemistry Course Physical Chemistry.
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FAQs on Integrated Rate Law Expression of Zero Order Reaction - Physical Chemistry

1. What is the integrated rate law expression for a zero-order reaction?
Ans. The integrated rate law expression for a zero-order reaction is given by the equation: [A] = [A]0 - kt, where [A] represents the concentration of the reactant at a given time, [A]0 is the initial concentration of the reactant, k is the rate constant, and t is the time.
2. How can the rate constant be determined for a zero-order reaction?
Ans. The rate constant for a zero-order reaction can be determined by plotting a graph of concentration versus time and finding the slope of the resulting line. The slope of the line is equal to the negative rate constant (-k).
3. Is the half-life of a zero-order reaction constant?
Ans. No, the half-life of a zero-order reaction is not constant. In a zero-order reaction, the concentration of the reactant decreases linearly with time. Therefore, the time taken for the concentration to decrease by half (half-life) will depend on the initial concentration of the reactant.
4. Can the integrated rate law expression for a zero-order reaction be used to determine the reaction order?
Ans. No, the integrated rate law expression for a zero-order reaction cannot be used to determine the reaction order. The reaction order is determined by the overall reaction rate equation and not by the integrated rate law expression. The zero-order integrated rate law expression only provides information about the concentration of the reactant as a function of time.
5. How does the rate of a zero-order reaction change with changes in reactant concentration?
Ans. The rate of a zero-order reaction remains constant regardless of changes in reactant concentration. In a zero-order reaction, the rate is independent of the concentration of the reactant. This means that doubling or halving the reactant concentration will not affect the rate of the reaction.
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