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Water - AQA SynergyPractical – Analysis and purification of water

The water cycle describes how natural processes move water between living and non-living stores. All humans rely on safe drinking water. Water is purified to remove insoluble and soluble substances. Salt can be removed from sea water to make it safe to drink. Waste water must be treated before being released into the environment.

Part of Combined ScienceExplaining change

Required Practical – Analysis and purification of water

It is important in this core practical to use apparatus and substances carefully and safely, and to observe chemical changes. Eye protection must be worn at all times.

Aims

  • To analyse samples of water from different sources in terms of and the presence of solids.
  • To sea water to obtain .

Method – Part 1 (Analysing water samples)

  1. For each sample of water you are given, test the pH using either a or and an appropriate colour chart. Record your observations carefully.
  2. For each sample of water, pour 50 cm3 into a clean pre-weighed . Heat gently over a Bunsen burner, tripod and gauze until no liquid remains. Allow to cool, then weigh the evaporating basin again and calculate the mass of solid that remains in the evaporating basin.

Analysis – Part 1 (Analysing water samples)

Water sample pHMass of solid obtained by evaporating 50 cm3 of water sample (g)
A 70.00
B81.74
C40.07
Water sample A
pH7
Mass of solid obtained by evaporating 50 cm3 of water sample (g)0.00
Water sampleB
pH8
Mass of solid obtained by evaporating 50 cm3 of water sample (g)1.74
Water sampleC
pH4
Mass of solid obtained by evaporating 50 cm3 of water sample (g)0.07

Question

Which sample was sea water?

Question

Which sample was obtained from a region affected by acid rain?

Method – Part 2 (Distillation of sea water)

Set up your distillation apparatus as demonstrated by your teacher.

You may be able to use a conventional condenser like this:

Salty water is heated, and water evaporates. The water vapour cools in the condenser and drips into a beaker.
As the sea water is heated the vapour condenses to produce pure water

Or you might be using apparatus like this:

Apparatus for distillation
An alternative way to set up the distillation apparatus

Heat your sea water until it boils gently.

After a period of time you should see pure water being produced.

Analysis – Part 2 (Distillation of sea water)

Question

Why is it not safe to drink the distilled water sample?

Evaluation

Question

Why was it important to heat the same volume of water to dryness in the first part of the practical?

Question

It is essential that the end of the delivery tube in the method described by the second diagram above is above the level of the distillate. This is for safety reasons. Describe what would happen if you stopped heating the sea water and the end of the delivery tube was below the surface of the distillate.

Hazards, risks and precautions

It is important to evaluate the hazards and the precautions needed to reduce the risk of harm. For example:

HazardPossible harmPossible precaution
Acidic or alkaline water samplesIrritating to eyes or skinRinse off skin if contact occurs and wear eye protection
Hot apparatusBurnsAllow hot apparatus time to cool before touching
HazardAcidic or alkaline water samples
Possible harmIrritating to eyes or skin
Possible precautionRinse off skin if contact occurs and wear eye protection
HazardHot apparatus
Possible harmBurns
Possible precautionAllow hot apparatus time to cool before touching
Next up
Test your understanding
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Waste water treatment

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