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Chemistry - Experimental Techniques and Chemical Analysis

Grade 10IGCSE

Review the key concepts, formulae, and examples before starting your quiz.

🔑Concepts

Purity of a substance can be determined by its melting point (MPMP) and boiling point (BPBP). Pure substances have a specific, sharp MPMP and BPBP, while impurities lower the MPMP and increase the BPBP over a range of temperatures.

Chromatography is used to separate mixtures of soluble substances like dyes or pigments. The stationary phase is the paper, and the mobile phase is the solvent. The RfR_f value is a ratio used to identify components.

Filtration is used to separate an insoluble solid (residue) from a liquid (filtrate).

Crystallization is used to obtain a pure solid sample from its solution by evaporating the solvent until the point of crystallization is reached.

Simple Distillation separates a liquid from a solution (e.g., obtaining H2OH_2O from sea water), while Fractional Distillation separates miscible liquids with different boiling points (e.g., separating C2H5OHC_2H_5OH from H2OH_2O).

Testing for Anions: Carbonates (CO32CO_3^{2-}) react with dilute acid to produce CO2CO_2 gas. Chlorides (ClCl^-) produce a white precipitate with acidified AgNO3AgNO_3. Sulfates (SO42SO_4^{2-}) produce a white precipitate with acidified Ba(NO3)2Ba(NO_3)_2.

Testing for Cations: Aqueous NaOHNaOH or NH3(aq)NH_3(aq) is used. For example, Cu2+Cu^{2+} forms a light blue precipitate, while Fe2+Fe^{2+} forms a green precipitate and Fe3+Fe^{3+} forms a reddish-brown precipitate.

Gas Tests: Hydrogen (H2H_2) is tested with a lighted splint (squeaky pop); Oxygen (O2O_2) relights a glowing splint; Carbon Dioxide (CO2CO_2) turns limewater (Ca(OH)2Ca(OH)_2) cloudy/milky; Ammonia (NH3NH_3) turns damp red litmus paper blue; Chlorine (Cl2Cl_2) bleaches damp litmus paper.

📐Formulae

Rf=Distance moved by the substanceDistance moved by the solvent frontR_f = \frac{\text{Distance moved by the substance}}{\text{Distance moved by the solvent front}}

Ca(OH)2(aq)+CO2(g)CaCO3(s)+H2O(l)Ca(OH)_2(aq) + CO_2(g) \rightarrow CaCO_3(s) + H_2O(l)

Ag+(aq)+Cl(aq)AgCl(s)Ag^+(aq) + Cl^-(aq) \rightarrow AgCl(s)

💡Examples

Problem 1:

In a paper chromatography experiment, a blue dye travels 5.2 cm5.2\text{ cm} from the baseline, while the solvent front travels 8.0 cm8.0\text{ cm}. Calculate the RfR_f value of the dye.

Solution:

Rf=5.28.0=0.65R_f = \frac{5.2}{8.0} = 0.65

Explanation:

The RfR_f value is calculated by dividing the distance moved by the solute by the distance moved by the solvent. It is a dimensionless ratio and is always 1\le 1.

Problem 2:

An unknown white salt YY is dissolved in water. When NaOH(aq)NaOH(aq) is added, a white precipitate forms which dissolves in excess NaOHNaOH to form a colorless solution. When acidified AgNO3AgNO_3 is added, a white precipitate forms. Identify salt YY.

Solution:

The salt YY is Zinc Chloride (ZnCl2ZnCl_2).

Explanation:

The white precipitate that dissolves in excess NaOHNaOH suggests the presence of Zn2+Zn^{2+} or Al3+Al^{3+} ions (in IGCSE, Zn2+Zn^{2+} is the primary candidate for this observation). The white precipitate with acidified AgNO3AgNO_3 confirms the presence of Chloride ions (ClCl^-).

Experimental Techniques and Chemical Analysis Revision - Grade 10 Science IGCSE