5.2 - Preparation and Properties of Ethyne

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Experiment Summary

In this experiment, ethyne (acetylene) gas is prepared by reacting calcium dicarbide ( $CaC₂$ ) with water.

The properties of ethyne, such as its flammability, its ability to turn limewater milky, and its reactions with bromine water and potassium manganate(VII), are investigated to demonstrate its chemical behaviour, particularly its unsaturation.

The impurities in ethyne are removed by bubbling the gas through acidified copper(II) sulfate.

The reaction is as follows:

\text{CaC}_2 + 2\text{H}_2\text{O} \rightarrow \text{C}_2\text{H}_2 + \text{Ca(OH)}_2

Materials and Apparatus Required

Chemicals

Calcium dicarbide ( $CaC₂$ )
Acidified copper(II) sulfate solution
Water
Limewater ( $Ca(OH)₂$ solution)
Bromine water
Acidified potassium manganate(VII) solution

Apparatus

Test tubes with solid stoppers and stoppers with two holes
Delivery tubes
Teat-pipette
Trough
Retort stands and clamps

Safety Precautions

Wear safety glasses throughout the experiment.
Calcium dicarbide is a severe eye hazard. Avoid contact with water unless in a controlled setup, as it releases highly flammable ethyne gas.
Bromine water is highly toxic and causes burns. Use it in a fume cupboard and avoid skin contact.
Acidified potassium manganate(VII) is an oxidising agent and irritant. Wash off any splashes immediately.
Handle concentrated sulfuric acid and copper(II) sulfate with care, as they are corrosive and harmful.

Method

Place 2-3 pieces of calcium dicarbide into a test tube.
Set up the apparatus to collect gas over water, using a delivery tube and a water-filled trough.
Using a teat-pipette, add water dropwise to the calcium dicarbide.
Collect the ethyne gas produced in test tubes by water displacement, discarding the first test tube of gas (which contains mostly air).
Stopper the test tubes filled with ethyne and carry out the following tests:

Combustion: Ignite the gas and observe the flame. Record your observations.
Limewater Test: Add a few drops of limewater to a test tube of ethyne and shake. Observe any changes (e.g., the limewater turning milky, indicating the presence of $CO₂$ )
Bromine Water Test: Add a few drops of bromine water to a test tube of ethyne, stopper the tube, and shake. Observe if the brown colour of bromine water decolourises, indicating unsaturation.
Potassium Manganate(VII) Test: Add a few drops of acidified potassium manganate(VII) solution to a test tube of ethyne. Stopper and shake the test tube. Note any colour change.

Results

Combustion: The ethyne burns with a smoky, sooty flame, indicating incomplete combustion due to limited oxygen.
Limewater Test: Limewater turns milky, indicating the production of carbon dioxide ( $CO₂$ ).
Bromine Water Test: The brown bromine water is decolourised, indicating that ethyne is an unsaturated hydrocarbon.
Potassium Manganate(VII) Test: The purple solution becomes colourless or changes to a lighter shade, indicating a reduction reaction and the unsaturation of ethyne.

Example Questions with Answers

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Q1: Write the equation for the combustion of ethyne and identify a product that causes a change in the limewater.

The combustion equation is:

\text{C}_2\text{H}_2 + 2.5\text{O}_2 \rightarrow 2\text{CO}_2 + \text{H}_2\text{O}

Carbon dioxide ( $CO₂$ ) causes the limewater to turn milky.

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Q2: What does the decolourisation of bromine water indicate?

The decolourisation of bromine water indicates that ethyne is unsaturated and contains a carbon-carbon triple bond, allowing it to react with bromine.

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Q3: Why should the first test tube of gas be discarded?

The first test tube of gas contains mostly air, which does not provide accurate results for the ethyne tests.

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Q4: What causes the sooty flame during the combustion of ethyne?

The sooty flame is caused by incomplete combustion, where not enough oxygen is available to fully oxidise the carbon atoms, leading to the formation of carbon particles.

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Q5: How can ethyne be purified from its impurities such as hydrogen sulfide?

Ethyne can be purified by passing it through acidified copper(II) sulfate solution, which removes impurities like hydrogen sulfide and phosphine.

- Preparation and Properties of Ethyne Simplified Revision Notes for Leaving Cert Chemistry

5.2 - Preparation and Properties of Ethyne

Experiment Summary

Materials and Apparatus Required

Chemicals

Apparatus

Safety Precautions

Method

Results

Example Questions with Answers

Q1: Write the equation for the combustion of ethyne and identify a product that causes a change in the limewater.

Q2: What does the decolourisation of bromine water indicate?

Q3: Why should the first test tube of gas be discarded?

Q4: What causes the sooty flame during the combustion of ethyne?

Q5: How can ethyne be purified from its impurities such as hydrogen sulfide?

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