Chemistry Experiment - Purification an Impure Sample of Benzoic Acid by the Process of Crystallisation
Benzoic acid is an organic compound which is used in dyes, perfumes and drugs. It has a wide range of applications. To get pure benzoic acid from crude sample, evaporation or crystallisation can be employed; however, crystallisation is preferable to evaporation for this purpose. This is because some solid mixture particles disintegrate during evaporation, leaving behind impurities, whereas pure solid crystals are produced during crystallisation.
Table of Content
Aim
Apparatus Required
Theory
Filtration
Crystallisation
Procedure
Observation
Result
Precautions
Lab Manual Questions
Viva Questions
Practical Based Questions
Result
Aim
To purify an impure sample of benzoic acid by the process of crystallisation.
Materials Required
Burner
Beaker
Tripod Stand
Wire Gauze
Glass Rod
Filter Paper
Funnel
Test Tube
Cold Water
Crude Sample
Watch Glass
Theory
Benzoic acid is an insoluble compound in water. It can be dissolved in boiling water.
Impurities in the sample, which are insoluble in hot water, can be separated by filtration.
Separating methods of crystallisation can be applied to get pure benzoic acid from impure samples.
Filtration
The process of filtering a liquid or gaseous fluid to remove solid particles while leaving the fluid behind in the filter media. The fluid that has been cleansed or the fluid that has had its solid particles removed might both be considered the desired product.
Crystallisation
There are two basic phases in the crystallisation process. The first is called nucleation and refers to the crystallisation of a supercooled liquid or a supersaturated solvent. Larger particle sizes and crystalline conditions are produced by the second process, often known as crystal growth.
Procedure
Preparation of Solution
Using a tripod stand and wire gauze, place 150 millilitres of water in a 250-millilitre beaker and hold it there to boil.
Add minimal amounts of boiling water, just enough to dissolve the benzoic acid, while stirring slowly to another 250 ml beaker containing 2-3 grams of the crude benzoic acid sample.
If necessary, heating can be performed by closing with a watch glass.
Preparation of solution
Filtration of Solution
Use a funnel and fluted filter paper to quickly filter the hot solution.
Insoluble impurities remain on the filter paper.
Cooling of Hot Solution
Allow the filtered solution to naturally reach room temperature.
Place it in a bucket of cold water to cool it now.
Separation of Crystals
Use a funnel and filter paper to divide the crystals according to their alteration.
With cold water, wash the crystals.
Transferring the crystals to another filter paper, gently pushing the crystals there to dry them.
Drying
Put the crystals in a dry test tube and close the lid.
Observation
Result
From this crystallisation experiment, we separated crystals of benzoic acid from its impure sample and obtained opaque white crystals of benzoic acid.
Precautions
There should only be enough filtrate evaporated to start crystallisation.
Keep it from getting too hot or dry. A hot solution spill can be avoided by not heating the solution too much.
Without agitating it, the solution should be slowly chilled. Never allow it to cool down fast.
To transform crystals into solid form, wash them with liquid first.
Lab Manual Questions
1. How to find the crystallisation of the samples?
Ans: The easiest way to compute the % crystallisation if your sample has a sharp melting point is to make the ratio of the experimental heat of fusion to the theoretical value for 100% crystalline material.
2. Crystallisation works on which principle?
Ans: The limited solubility of a substance in a solvent at a particular temperature, pressure, etc. forms the basis of the crystallisation principle. A crystalline solid will emerge if these circumstances are altered to a situation where the solubility is reduced.
3. How are impurities taken out of crystals of benzoic acid?
Ans: The sample solution will contain dissolved benzoic acid as well as dissolved contaminants if the impure sample is dissolved in a small amount of hot solvent, in this example boiling water, then filtered to eliminate insoluble impurities.
4. What separating method is used for obtaining crystals from a sample?
Ans: The method of crystallisation that is converting solution into solid is used for obtaining crystal from impure samples.
Viva Questions
1. What is meant by crystallisation?
Ans: Crystals are the names given to substances when they exist in clearly defined geometrical shapes. These are created when a heated, salt-saturated fluid is allowed to cool slowly without being disturbed. Crystallisation is the name given to this process.
2. What is meant by filtration?
Ans: Insoluble components are separated by putting the solution through filter paper.
3. Which method is used to purify the impure solid?
Ans: Some impure solids are purified by Crystallisation.
4. What are the characteristics of a crystal?
Ans: A crystal has a definite shape and geometry. They are rigid and incompressible.
5. Is benzoic acid soluble in cold water?
Ans: No, benzoic acid is soluble in hot or boiling water.
6. What is the molecular formula of benzoic acid?
Ans: The chemical formula of benzoic acid is C6H5COOH.
7. What is the boiling point of benzoic acid?
Ans: The boiling point of benzoic acid is 249.2 °C.
8. What are the uses of benzoic acid?
Ans: Food and beverages frequently use benzoic acid (BA) as an antibacterial preservative, particularly carbonated drinks.
9. What is meant by the concentrated solution?
Ans: A concentrated solution contains a lot more solute than it could dissolve.
10. What is the principle of crystallisation?
Ans: The limited solubility of a substance in a solvent at a particular temperature, pressure, etc. forms the basis of the crystallisation principle.
Practical-Based Questions
Benzoic acid can be prepared by
Oxidation of benzyl alcohol
Reduction of Benzyl Alcohol
Using Benzyl Alcohol as a grignard reagent
None of the above
Ans: Benzoic acid can also be prepared by the oxidation of benzyl alcohol with acidic or alkaline KMnO4 or acidified K2Cr2O7.
The common solvent used for crystallisation of Benzoic Acid is
Water
Ethanol
Acetone
All of the above
Ans: Water is used as the common solvent for crystallisation of Benzoic Acid.
Benzoic acid is soluble in ____.
Cold water
Hot water
Acids
None of the above
Ans: Benzoic acid is nearly insoluble in cold water, but soluble in hot water.
What is the melting point of benzoic acid?
249.2 °C
122.3 °C
112.3 °C
123.5 °C
Ans: The melting point of benzoic acid is 122.3 °C.
Choose the separation method among the following.
Evaporation
Filtration
Decantation
All of the above
Ans: Evaporation, filtration and decantation are different types of separating methods.
Crystallisation is an example of _____.
Physical change
Chemical change
Both a & b
None of the above
Ans: In crystallisation, the liquid state is converted into a solid, hence it is a physical change. No new products are formed, so not a chemical change.
How to separate impure benzoic acid
Sublimation
Sedimentation
Filtration
None of the above
Ans: Impure benzoic acid can be purified by sublimation
Choose the weak acids.
Benzoic acid
Hydrochloric acid
Acetic acid
Both a & c
Ans: Both Acetic acid and benzoic acid are weak organic acids.
Choose the correct order of separation of benzoic acid from its sample.
Preparation of solution-Filtration-Cooling-Separation of crystal-Drying
Preparation of solution-Separation of crystal-Drying-Filtration-Cooling
Separation of crystal-Drying-Filtration-Cooling-Preparation of solution
Separation of crystal-Cooling-Preparation of solution-Drying-Filtration
Ans: Correct order of separation of benzoic acid from its sample is the preparation of solution-filtration-cooling-separation of crystal-drying.
Benzoic acid is an ____.
Mineral acid
Aromatic carboxylic acid
Aliphatic carboxylic acid
Both a & c
Ans: Benzoic acid is an aromatic carboxylic acid.
Conclusion
From the crystallisation experiment described above, we can conclude that crystallisation can be used to differentiate pure benzoic acid from impure samples. Although evaporation can also be used to separate pure samples, crystallisation is more efficient at doing so. This is because pure solid crystals are created during crystallisation, whereas some solid particles in a mixture melt during evaporation, leaving impurities behind. Crystallisation is an example of a chemical change.
FAQs on CBSE Chemistry Experiment Purification of an Impure Sample of Benzoic Acid by the Process of Crystallisation
1. What are the key steps to purify an impure sample of benzoic acid by crystallization as per the CBSE Class 11 syllabus?
The purification of an impure sample of benzoic acid involves the following essential steps:
- Preparation of Solution: Dissolve the impure benzoic acid sample in the minimum amount of hot water in a beaker to create a saturated solution.
- Hot Filtration: Quickly filter the hot solution using a fluted filter paper to remove any insoluble impurities. The desired benzoic acid remains dissolved in the filtrate.
- Crystallization: Allow the hot filtrate to cool down slowly and undisturbed. As the solution cools, the solubility of benzoic acid decreases, and pure crystals begin to form.
- Separation of Crystals: Separate the formed crystals from the remaining solution (mother liquor) by filtration using a funnel and filter paper.
- Washing and Drying: Wash the crystals with a small amount of cold water to remove any adhering soluble impurities and then dry them by pressing them between sheets of filter paper.
2. Which solvent is considered ideal for the crystallization of benzoic acid and what is the reason for this choice?
The ideal solvent for the crystallization of benzoic acid is water. This choice is based on the principle of differential solubility. Benzoic acid is sparingly soluble in cold water but shows a significant increase in solubility in hot or boiling water. This property allows for the creation of a saturated solution at a high temperature, from which pure benzoic acid will crystallize out upon cooling, leaving most soluble impurities behind in the solution.
3. Why is it essential to cool the hot, saturated solution of benzoic acid slowly and without disturbance?
Cooling the hot, saturated solution slowly is a critical step for obtaining pure, well-formed crystals. Slow cooling allows the molecules to arrange themselves in a highly ordered crystal lattice structure, excluding impurities. If the solution is cooled rapidly, the substance precipitates quickly, trapping impurities within the small, poorly-formed crystals. Therefore, gradual cooling is essential for achieving maximum purity and larger crystal size.
4. What are the most important precautions a student must take while performing the crystallization of benzoic acid?
To ensure safety and obtain a good yield of pure crystals, a student should observe the following precautions:
- Use the minimum quantity of hot water required to dissolve the benzoic acid to ensure the solution is saturated.
- Handle the hot beaker and funnel with care to avoid spills and burns.
- Do not heat the solution too strongly to prevent it from bumping or drying out completely.
- Allow the filtered solution to cool slowly and without agitation to promote the formation of large, pure crystals.
- Wash the final crystals with cold water, not hot water, to avoid dissolving them.
5. For the 2025-26 board practicals, why is crystallization preferred over evaporation for purifying benzoic acid?
Crystallization is preferred over evaporation for purifying benzoic acid because it is a more selective process. In evaporation, the solvent is removed by heating, which would cause both the benzoic acid and any soluble impurities to be left behind as a solid mixture. In contrast, crystallization relies on the difference in solubility. As the solution cools, only the benzoic acid (which is less soluble at lower temperatures) crystallizes out, while the soluble impurities remain dissolved in the mother liquor, allowing for effective separation and higher purity.
6. How can you experimentally verify that the benzoic acid obtained after crystallization is purer than the original sample?
The purity of the recrystallized benzoic acid can be verified by determining its melting point. A pure crystalline solid has a sharp and fixed melting point. The impure sample will melt over a range of temperatures and at a temperature lower than the literature value. By comparing the melting point of the purified sample to the standard melting point of benzoic acid (122.3°C), one can confirm its purity. A sharp melting point close to this value indicates a high degree of purity.
7. What would be the impact on the final result if a student adds too much hot water while dissolving the impure benzoic acid?
If too much hot water is added, the solution will become unsaturated or dilute instead of saturated. Consequently, upon cooling, the solubility limit may not be reached, or only a very small amount of benzoic acid will crystallize out. This would lead to a very low or negligible yield of pure benzoic acid crystals, as most of the compound would remain dissolved in the solvent even at a lower temperature.
8. What is the underlying principle for the purification of compounds by crystallization?
The principle of purification by crystallization is based on the difference in the solubilities of the main compound and its impurities in a suitable solvent. An ideal solvent is one in which the compound is sparingly soluble at a low temperature but highly soluble at a higher temperature. This allows the compound to be dissolved in a hot solvent and then to crystallize out in a pure form upon cooling, while the impurities remain dissolved in the solution.
