An impure solution of potassium and Aluminium can be purified by which method
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The chemicals used for various purposes should be pure, completely free from any type of impurities. Method of purification of a substance depends upon the nature of impurities present in it. There are various methods for the purification of substances, e.g., filtration, evaporation, decantation, distillation, and crystallization. Crystallisation is one of the very important purification techniques, purifying substances by removing unwanted by-products. Crystalline compounds are generally purified via this crystallisation process.
The principle behind the crystallisation is that the amount of solute that can be dissolved by a solvent increases with temperature.
In crystallisation, the impure substance is dissolved in a suitable solvent to reach its nearly saturated solution at a temperature higher than the room temperature. At this high temperature, the solute has very high solubility in that solvent, so a much smaller quantity of hot solvent is needed for dissolving the solute than the solvent at room temperature. When the solution is cooled, the pure substance is crystallised. The solution left behind is called mother liquor. All the impurities are left behind in the mother liquor. The purification method depends on the differences in solubility between the compound and the impurity.
Let us discuss the basic steps involved in the crystallisation process
Solvent and solute selection
Choosing an appropriate solvent is the important process of crystallisation, as crystallisation works only when a proper solvent is used. It is important to choose a solvent that will not dissolve the substance at room temperature. But as the temperature of the solvent increases, the solubility of the solute also increases. At the same time, the impurities that are present must either be soluble in the solvent at room temperature or must be insoluble in the solvent at a high temperature. If the solvent is not hot when the dissolution is carried out, too much solvent will be used, leading to diminished yield.
Dissolving the solute in the solvent
Add a small portion of the solvent to the beaker containing impure sample and boiling chips while the sample is heating. Stir the contents gently. Add enough solvent to dissolve the solute to get a saturated solution at the boiling point of the solvent. If too much solvent is used, the recovery of the substance will be decreased.
Filtration of the hot solution
If the hot solution contains insoluble impurities, it can be removed by the process of filtration. For this process, Place a filter paper cone in a funnel and wet the filter paper with a spray of water to fix it inside the funnel properly. Place the funnel on a funnel stand and put a china dish below the funnel.
Note: The stem of the funnel should touch the wall of the china dish to avoid the solution splashing out.
Crystallisation of the filtrate
To concentrate the filtrate, heat the china dish containing filtrate gently with constant stirring. This is done to ensure uniform evaporation and to prevent formation of a solid crust. When the volume of the solution is reduced to one half, dip one end of a glass rod in the concentrated solution and cool the drop by blowing on it. The formation of a thin crust indicates that the crystallisation point has been obtained.
Cooling the concentrated solution
Once it is determined that the solution is saturated with the compound, it is allowed to cool slowly at room temperature.
In order to cool the concentrated solution, pour the solution into a crystallising dish and keep it undisturbed. As the solution cools, crystals separate. Once the sample is cooled to room temperature, place it in an ice bath or in cold water to complete the crystallisation.
If the crystallisation does not start immediately, add a seed crystal or scratch inside the vessel containing the concentrated solution with a glass rod.
Separation and drying of crystals
The crystals formed are separated by either decanting the m
The chemicals used for various purposes should be pure, completely free from any type of impurities. Method of purification of a substance depends upon the nature of impurities present in it. There are various methods for the purification of substances, e.g., filtration, evaporation, decantation, distillation, and crystallization. Crystallisation is one of the very important purification techniques, purifying substances by removing unwanted by-products. Crystalline compounds are generally purified via this crystallisation process.
The principle behind the crystallisation is that the amount of solute that can be dissolved by a solvent increases with temperature.
In crystallisation, the impure substance is dissolved in a suitable solvent to reach its nearly saturated solution at a temperature higher than the room temperature. At this high temperature, the solute has very high solubility in that solvent, so a much smaller quantity of hot solvent is needed for dissolving the solute than the solvent at room temperature. When the solution is cooled, the pure substance is crystallised. The solution left behind is called mother liquor. All the impurities are left behind in the mother liquor. The purification method depends on the differences in solubility between the compound and the impurity.
Let us discuss the basic steps involved in the crystallisation process
Solvent and solute selection
Choosing an appropriate solvent is the important process of crystallisation, as crystallisation works only when a proper solvent is used. It is important to choose a solvent that will not dissolve the substance at room temperature. But as the temperature of the solvent increases, the solubility of the solute also increases. At the same time, the impurities that are present must either be soluble in the solvent at room temperature or must be insoluble in the solvent at a high temperature. If the solvent is not hot when the dissolution is carried out, too much solvent will be used, leading to diminished yield.
Dissolving the solute in the solvent
Add a small portion of the solvent to the beaker containing impure sample and boiling chips while the sample is heating. Stir the contents gently. Add enough solvent to dissolve the solute to get a saturated solution at the boiling point of the solvent. If too much solvent is used, the recovery of the substance will be decreased.
Filtration of the hot solution
If the hot solution contains insoluble impurities, it can be removed by the process of filtration. For this process, Place a filter paper cone in a funnel and wet the filter paper with a spray of water to fix it inside the funnel properly. Place the funnel on a funnel stand and put a china dish below the funnel.
Note: The stem of the funnel should touch the wall of the china dish to avoid the solution splashing out.
Crystallisation of the filtrate
To concentrate the filtrate, heat the china dish containing filtrate gently with constant stirring. This is done to ensure uniform evaporation and to prevent formation of a solid crust. When the volume of the solution is reduced to one half, dip one end of a glass rod in the concentrated solution and cool the drop by blowing on it. The formation of a thin crust indicates that the crystallisation point has been obtained.
Cooling the concentrated solution
Once it is determined that the solution is saturated with the compound, it is allowed to cool slowly at room temperature.
In order to cool the concentrated solution, pour the solution into a crystallising dish and keep it undisturbed. As the solution cools, crystals separate. Once the sample is cooled to room temperature, place it in an ice bath or in cold water to complete the crystallisation.
If the crystallisation does not start immediately, add a seed crystal or scratch inside the vessel containing the concentrated solution with a glass rod.
Separation and drying of crystals
The crystals formed are separated by either decanting the m
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