LAW OF CHEMICAL EQUILIBRIUM

At a constant temperature, the rate of a chemical reaction is directly proportional to the product of the molar concentrations of the reactants each raised to a power equal to the corresponding stoichiometric coefficients as represented by the balanced chemical equation. Let us consider the reaction,

Chemical equilibrium is defined as a state where both products along with reactants are present in the concentration and have no tendency to change further with time. There will be no observable changes in the properties of any particular system in the present. The equilibrium rates of forward and backward reactions are equal. 

For example, the mixture of products and the reactants are in the equilibrium state.

In equilibrium, two opposite reactions act in equal rules or velocities, and therefore there are no changes in the substances involved. At this particular point, the reaction must be considered complete. The quantitative formulation is a reversible reaction A B + C of equilibrium, the reaction’s velocity to its right, r1, which mathematical expression gives is based on the law of mass action. In “r1 = k1 (A)”, here the k1 is ratio rate.

A catalyst addition can affect both the backward & forward reaction in the same way and do not affect the equilibrium constant. Both the reactions will speed up with the help of a catalyst and increase the speed from which the equilibrium rate can be reached. 

The law of chemical equilibrium helps to properly understand the rate of forward as well as backward reaction and rate of change in a chemical reaction.

The rate of forwarding reaction  =  rate of backward reaction.

The formula mentioned above is known as the Law of chemical equilibrium. Here K is considered an equilibrium constant, and it defines the molar concentration of the product. By the statement of the law of chemical equilibrium, we get to understand the ratio between the product’s concentration and the reactant’s concentration which are both raised to a power of stoichiometric coefficient that is said to be constant, provided that the temperature does not vary. This is called an equilibrium constant. This ratio defines the amount of reactant and product used to understand and analyze the chemical behaviour. This is the law of chemical equilibrium and equilibrium constant.

This constant can be presented as the partial pressures of the products along with reactants for gas-phase reactions. If this is expressed by partial pressure, then the K is represented as Kp.

Here, Pa, Pb, Pc, Pd are the partial pressures of a,b,c,d in the mixture of reactions.

●Examples of chemical equilibrium

To understand the law of chemical equilibrium better, let us analyze an experiment on hydrogen and iodine. The vapor of these two products is kept on a closed vessel at a constant temperature. The reaction starts to proceed and then stops after some time by converting some portion of iodine and hydrogen to hydrogen iodide. The reason for stopping the process was that the two constants reached the equilibrium level after reaching a particular point of dynamism.

Similarly, let us take some amount of hydrogen iodide in the closed vessel and keep it at the same constant temperature after some time. It will be converted into hydrogen molecules and iodine molecules. Therefore, the rest of the product will remain unchanged. However, two constants will remain the same and be fixed in both the experiment and reaction. This reaching of the dynamic stage is called the equilibrium.

Chemical equation: H2 (gas) + I2 (gas) 2HI (gas)