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chemical equilibrium



Chemical equilibrium are important in numerical and biological and environmental processes. for example, equilibrium involving O2 molecules and the protein hemoglobin play a crucial role in the transport and delivery of O2 from our lungs to our muscles.similar equilibrium involving CO molecules and hemoglobin account for the toxicity of CO.

When a liquid evaporates in a closed container,molecules with relatively higher kinetic energy escape the liquid surface into the vapor phase and number of liquid molecules from the vapor phase strike the liquid surface and are retained in the liquid phase. it gives rise to a constant vapor pressure because of an equilibrium in which the number of molecules leaving the liquid equals the number returning to liquid form the vapor. we can say that the system has reached equilibrium state at this stage. however, this is not static equilibrium and there is a lot of a activity at the boundary between the liquid and the vapor.thus, at equilibrium, the rate of evaporation is equal to the rate of condensation.

The double half arrows indicate that the processes in both the directions are going on simultaneously. the mixture of reactants and products in the equilibrium state is called an equilibrium mixture.

Equilibrium can be established for both physical processes and chemical reactions.the reaction may be fast or slow depending on the experimental conditions and the nature of the reactants. when the reactants in a closed vessel at a particular temperature react to give products keep on increasing for some time after which there is no change in the concentrations of either of the reactants or products. this stage of the system is the dynamic equilibrium and the rates of the forward and reverse reactions become equal. it is due to this dynamic equilibrium stage that there is no change in the concentrations of various species in the reaction mixture. based on the extent to which the reactions proceed to reach the state of chemical equilibrium, these may be classified in three groups.

  1. the reactions that proceed nearly to completion and only negligible concentrations of the reactants are left. in some cases, it may not be even possible to detect these experimentally.
  2. the reactions in which only small amounts of products are formed and most of the reactants remain unchanged at equilibrium stage.
  3. the reactions in which the concentrations of the reactants and products are comparable, when the system is in equilibrium.

the extent of a reaction in equilibrium varies with the experimental conditions such as concentrations of reactants,temperature,etc. optimization of the operational conditions is very important in industry and laboratory so that equilibrium is favorable in the direction of the desired product. some important aspects of equilibrium involving physical and chemical processes are dealt in this unit along with the equilibrium involving ions in aqueous solutions which is called as ionic equilibrium.


The characteristics of system equilibrium are better understood if we examine some physical processes. the most familiar examples are phase transformation processes, e.g.,

solid  = liquid
liquid = gas
solid = gas