Equilibrium represents the state of a process in which the properties like pressure, temperature etc do not show any change with time.
Physical equilibrium is defined as the equilibrium which develops between different phases or physical properties. In these processes, there is no change in chemical composition.
It represents the existence of the same substance in two different physical states. The physical equilibrium can be:
Let’s try and understand equilibrium in physical processes in more detail. Substances undergo different phase transformation processes such as:
Solid Liquid Equilibrium
What happens if you keep ice and water in a perfectly insulated manner, such as in a thermos flask at a temperature of 273K and atmospheric pressure?
We see that the mass of ice and water do not change and that the temperature remains constant, indicating a state of equilibrium.
However, the equilibrium is not static because there is intense activity at the boundary between ice and water. Some ice molecules escape into liquid water and some molecules of water collide with ice and adhere to it. Despite this exchange, there is no change in the mass of ice and water. This is because the rates of transfer of ice molecules to water and the reverse process are equal at 273K and atmospheric pressure.
It is evident that ice and water are in equilibrium only at a particular pressure and temperature. Therefore,
For any pure substance at atmospheric pressure, the temperature at which the solid and liquid phases are at equilibrium is called the normal melting point or normal freezing point of the substance.
The system of ice and water is in dynamic equilibrium and we can conclude the following:
Liquid Vapour Equilibrium
To understand this concept, let’s perform the following experiment.
Experiment:
Observations:
Conclusion:
Boiling Point
At the same temperature, different liquids have different equilibrium vapour pressures. The liquid with a higher vapour pressure is more volatile and has a lower boiling point.
Have you ever observed what happens to solid iodine placed in a closed jar? The jar gets filled up with violet coloured vapour and the colour intensity increases with time! The intensity of the colour becomes constant after a certain time i.e. equilibrium is reached. In this way, solid iodine sublimes to give iodine vapour while the vapour condenses to form solid iodine. The equilibrium in this process is given as
I2(solid) ⇌ I2(vapour)
Other substances that show this kind of equilibrium are:
What happens when you make a thick sugar solution by dissolving sugar at a high temperature, then allow it to cool at room temperature?
Yes, the sugar crystals separate out.
In this case, the thick sugar solution is a saturated solution because no more solute i.e. sugar can be dissolved in it at a given temperature. The concentration of solute in a saturated solution depends on the temperature. A dynamic equilibrium exists between the solute molecules in the solid-state and in solution in a saturated solution.
Sugar (solution) ⇌ Sugar (solid)
Also, the rate of dissolution of sugar = the rate of crystallization of sugar.
Let’s understand this further, using an example.
What happens when you add radioactive sugar to a saturated solution of non-radioactive sugar?
Why do we see fizz and hear a sound when we open soda bottles?
This happens because some of the CO2 dissolved in it fizzes out rapidly due to the difference in solubility of CO2 at different pressures. The equilibrium between the CO2 molecules in the gaseous state and those dissolved in liquid under pressure is given as:
CO2(gas) ⇌ CO2(in solution)
Gases in Liquids
This equilibrium is governed by Henry’s law.
It states that the mass of a gas dissolved in a given mass of a solvent at any temperature is proportional to the pressure of the gas above the solvent. This amount decreases with increase in temperature.
The soda bottle is sealed under the pressure of the gas where its solubility in water is high. When the bottle is opened, some of the CO2 escapes trying to reach a new equilibrium or its partial pressure in the atmosphere. This is why soda water turns flat when the bottle is left open for too long.
Some Features of Physical Equilibria
The following characteristics are common to the state of equilibrium in physical processes:
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