📖 generic · CBSE Class 11 English medium · CHEMISTRY · Page 1question

Equilibrium · Part 6

Chapter 6: Equilibrium · CHEMISTRY

some time radioactivity is observed both in the solution and in the solid sugar. Initially there were no radioactive sugar molecules in the solution but due to dynamic nature of equilibrium, there is exchange between the radioactive and non-radioactive sugar molecules between the two phases. The ratio of the radioactive to non-radioactive molecules in the solution increases till it attains a constant value. Gases in liquids When a soda water bottle is opened, some of the carbon dioxide gas dissolved in it fizzes out rapidly.

The phenomenon arises due to difference in solubility of carbon dioxide at different pressures. There is equilibrium between the molecules in the gaseous state and the molecules dissolved in the liquid under pressure i.e., CO (gas) CO (in solution) This equilibrium is governed by Henry’s law, which 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 of temperature. The soda water bottle is sealed under pressure of gas when its solubility in water is high.

As soon as the bottle is opened, some of the dissolved carbon dioxide gas escapes to reach a new equilibrium condition required for the lower pressure, namely its partial pressure in the atmosphere. This is how the soda water in bottle when left open to the air for some time, turns ‘flat’. It can be generalised that: (i) For solid liquid equilibrium, there is only one temperature (melting point) at atm ( . bar) at which the two phases can coexist.

If there is no exchange of heat with the surroundings, the mass of the two phases remains constant. (ii) For liquid vapour equilibrium, the vapour pressure is constant at a given temperature. (iii) For dissolution of solids in liquids, the solubility is constant at a given temperature. (iv) For dissolution of gases in liquids, the concentration of a gas in liquid is proportional to the pressure (concentration) of the gas over the liquid.

These observations are summarised in Table . Table .

Related topics

Have a question about this topic?

Get an AI answer grounded in your actual textbook — with the exact page reference.

Ask AI about this topic →