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Reversible Reactions & Equilibrium | Physical Chemistry PDF Download

Introduction

A reversible chemical reaction is one in which the products, as soon as they are formed, react to produce the original reactants. At equilibrium, the two opposing reactions go on at equal rates, or velocities, and hence there is no net change in the amounts of substances involved.

Reversible reactions and Equilibrium

Consider the following reaction in which the forward reaction is first order in A, and the back reaction is first order in B:
 Reversible Reactions & Equilibrium | Physical Chemistry
The forward and back rate constant are kA & kB. Then rate law are
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Only reactant is present at t = 0 and the concentration of reactant and product for t > 0 must be equal to the initial concentration of reactant. [A]0 = [A] + [B]
then
 Reversible Reactions & Equilibrium | Physical Chemistry
= –kA[A] + kB[B]
= –kA[A] + kB([A]– [A])
= –[A] (kA + kB) + kB[A]0
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Using this relationship we get
 Reversible Reactions & Equilibrium | Physical ChemistryReversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
[A] (kA + kB) – kB[A]0 = k[A]0 e-( kA+ kB)t
 Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Then
As t → ∝, the concentration reach their equilibrium values then
Reversible Reactions & Equilibrium | Physical Chemistry
&  Reversible Reactions & Equilibrium | Physical Chemistry
It follows that the equilibrium constant of the reaction is
 Reversible Reactions & Equilibrium | Physical Chemistry
i.e.  Reversible Reactions & Equilibrium | Physical Chemistry
kC is equilibrium constant in terms of concentration.
At equilibrium, the forward and reverse rates must be same so,
KA[A]eq = kB[B]eq
 Reversible Reactions & Equilibrium | Physical Chemistry

Examples

Q.1. Using the following equation
A → C
mechanism,
 Reversible Reactions & Equilibrium | Physical Chemistry  Reversible Reactions & Equilibrium | Physical Chemistry
(a)  Find rate of reaction?
(b)  Find rate of reaction when (i) is fast.
Sol. (a) From the rate law
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
[B] is intermediate then we apply SSA then we get
0 = k1[A] – k2[B] – k3[B]
Reversible Reactions & Equilibrium | Physical Chemistry
then
Reversible Reactions & Equilibrium | Physical Chemistry
(b) When (i) is fast then
k1[A] = k2[B]
i.e.Reversible Reactions & Equilibrium | Physical Chemistry
& Reversible Reactions & Equilibrium | Physical Chemistry


Q.2. Using the following equation 
2NO2 + F2 → 2NO2F
Mechanism
 Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
Find the rate of reaction.
Sol. From the rate law
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
= 0 (F is intermediate)
Reversible Reactions & Equilibrium | Physical Chemistry
Reversible Reactions & Equilibrium | Physical Chemistry
= 2k1[F2][NO2]

The document Reversible Reactions & Equilibrium | Physical Chemistry is a part of the Chemistry Course Physical Chemistry.
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FAQs on Reversible Reactions & Equilibrium - Physical Chemistry

1. What are reversible reactions and what is their significance in chemistry?
Ans. Reversible reactions are chemical reactions that can occur in both forward and backward directions. The significance of reversible reactions in chemistry is that they establish a dynamic equilibrium, where the rate of the forward reaction is equal to the rate of the backward reaction. This equilibrium allows for the coexistence of reactants and products, leading to a stable system.
2. How is equilibrium achieved in a reversible reaction?
Ans. Equilibrium in a reversible reaction is achieved when the rates of the forward and backward reactions become equal. At this point, the concentrations of reactants and products remain constant over time, although the reactions are still occurring. The establishment of equilibrium is influenced by factors such as temperature, pressure, and concentration of the reactants and products.
3. Can reversible reactions be manipulated to favor the formation of products?
Ans. Yes, reversible reactions can be manipulated to favor the formation of products by altering the conditions. For example, increasing the concentration of reactants, decreasing the concentration of products, or adjusting the temperature and pressure can shift the equilibrium towards the product side. This manipulation is possible due to Le Chatelier's principle, which states that a system at equilibrium will respond to external changes by shifting the equilibrium to counteract the change.
4. What is the difference between a reversible reaction and an irreversible reaction?
Ans. The main difference between a reversible reaction and an irreversible reaction lies in the extent to which the reaction proceeds. In a reversible reaction, the reaction can occur in both the forward and backward directions, leading to the establishment of equilibrium. On the other hand, an irreversible reaction proceeds only in the forward direction and does not establish equilibrium. Irreversible reactions often result in the complete conversion of reactants into products.
5. How does the concept of reversibility impact industrial processes and chemical reactions?
Ans. The concept of reversibility plays a crucial role in various industrial processes and chemical reactions. By understanding the reversibility of reactions, scientists and engineers can design and optimize processes to maximize the production of desired products. It allows for the efficient use of resources and minimizes waste. Additionally, the study of reversible reactions helps in the development of catalysts and reaction conditions that facilitate the desired reaction pathways.
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