Methods of Separating & Purifying Substances (Edexcel GCSE Chemistry: Combined Science)

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11 mark

Which of the following is not a pure substance?

☐	A	Seawater
☐	B	Calcium carbonate
☐	C	Distilled water
☐	D	Ammonia

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2a1 mark

Substances can be pure or they can be mixtures.

Which of these is a mixture?

☐	A	chlorine
☐	B	sodium
☐	C	sodium chloride
☐	D	sodium chloride solution

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2b3 marks

Figure 9 shows some mixtures to be separated and possible methods of separation.

Place a tick ( $✓$ ) in one box in each row of the table to show the best method to separate the first named substance from each of the mixtures.

method of separation

substance to separate	crystallisation	filtration	simple distillation	fractional distillation
sand from a mixture of sand and sodium chloride solution
copper sulfate crystals from copper sulfate solution
useful liquids from crude oil

Figure 9

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4 marks

Paper chromatography was used to separate a mixture of blue and red inks. A spot of the mixture was placed on chromatography paper as shown in Figure 10.

Figure 10

Give a reason why the start line is drawn in pencil rather than in ink.

(1)

ii)

The chromatography paper, with the spot of mixture on it, was placed in a beaker with the bottom of the paper in solvent.
On Figure 11, complete the diagram showing the position of the chromatography paper with the spot of mixture at the start of the experiment.

(1)

fig-11-q7cii-1cho-1f-specimen-2018

Figure 11

iii)

The chromatography was carried out and the result is shown in Figure 12.

Figure 12

The blue spot had moved 14.5 cm and the solvent front had moved 15.3 cm.
Calculate the Rf value of the substance in the blue spot, giving your answer to 2 significant figures.

R_f value = $\frac{distance travelled by a dye}{distance travelled by solvent front}$

(2)

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2d4 marks

P, Q, R and S are mixtures of food colourings.
They are investigated using paper chromatography.
Figure 13 shows the chromatogram at the end of the experiment.

fig-13-q7d-1cho-1f-specimen-2018

Figure 13

Which mixture contains an insoluble food colouring?

(1)

☐	A	mixture P
☐	B	mixture Q
☐	C	mixture R
☐	D	mixture S

ii)

Give a change that could be made to the experiment to obtain an R_fvalue for the insoluble colouring.

(1)

iii)

Explain, by referring to Figure 13, which mixture is separated into the greatest number of soluble food colourings by this chromatography experiment.

(2)

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12a1 mark

A sample of potable water contains impurities.

Why is this sample of water potable even though it contains impurities?

☐	A	the impurities have no smell
☐	B	the impurities are colourless
☐	C	the impurities are harmless
☐	D	the impurities are soluble

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12b3 marks

Waste water can be used to produce drinking water.

The processes used include sedimentation, filtration and chlorination.

What is sedimentation?

☐	A	the waste water is heated so the impurities evaporate
☐	B	the waste water has an acid added to remove impurities
☐	C	the impurities in the waste water settle to the bottom of their container
☐	D	the impurities in the waste water are bleached

(1)

ii)

State why the waste water is filtered.

(1)

iii)

State the reason for chlorination.

(1)

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12c3 marks

Some salts can be added to waste water to remove impurities.

In an experiment, different masses of salt A were added to 1000 cm³samples of waste water.

The experiment was repeated with salt B.
The percentages of impurities removed from the waste water are shown in Figure 10.

fig-4-q3c-1cho-1h-paper-1-nov-2021

Figure 10

It was concluded that the best way to purify 1000 cm³of the waste water is to add 100 mg of salt B.

Use the information about salt A and salt B in Figure 10 to evaluate this conclusion.

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12d6 marks

A sample of water was contaminated with a dissolved solid.

Devise a plan to separate pure water from this mixture, including a test to show that the water obtained is neutral.

You may use some or all of the apparatus shown in Figure 11 and any other laboratory apparatus.

fig-11-q9d-1cho-1f-paper-1-nov-2021

Figure 11

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12e2 marks

Higher Only

Waste water may contain phosphate ions, ${PO}_{4}^{3 -}$ .

Aluminium ions react with phosphate ions to form aluminium phosphate.

Complete the ionic equation for the formation of aluminium phosphate in this reaction

.................. + ${PO}_{4}^{3 -}$ → ............

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☐	A	Sample B is insoluble in the solvent used
☐	B	Samples C and D are pure substances
☐	C	Sample D is the least soluble of the samples
☐	D	The black ink is a mixture of A, E and an unknown

☐	A	chromatography
☐	B	crystallisation
☐	C	filtration
☐	D	fractional distillation

		Stationary	Mobile
☐	A	chromatography paper	water
☐	B	beaker	start line
☐	C	water	food colourings
☐	D	start line	chromatography paper

☐	A	Filtration
☐	B	Crystallisation
☐	C	Simple distillation
☐	D	Fractional distillation

☐	A	Sedimentation
☐	B	Anaerobic digestion
☐	C	Screening
☐	D	Chlorination

☐	A	$R_{f} = \frac{distance the solute travels}{distance the solvent travels}$
☐	B	$R_{f} = \frac{distance the solvent travels}{distance the solute travels}$
☐	C	$R_{f} = \frac{distance the mobile phase travels}{distance the stationary phase travels}$
☐	D	$R_{f} = \frac{distance the stationary phase travels}{distance the mobile phase travels}$

☐	A	air
☐	B	carbon dioxide
☐	C	gold
☐	D	titanium