Reactivity Series (Edexcel IGCSE Chemistry)

This question is about metals.

Metals can be arranged in a reactivity series based on their reactions with water and their reactions with dilute hydrochloric acid. 

The table shows how four metals, P, Q, R and S, react with water and with dilute hydrochloric acid.

Zinc is used to coat iron gates to prevent the iron from rusting.

A mixture of zinc powder and copper(II) oxide is heated. 

The chemical equation for the reaction that takes place is 

Zn + CuO → ZnO + Cu

A reaction took place between iron sulfate and magnesium. 

iron(II) sulfate + magnesium  →    magnesium sulfate + iron 

Which species has been oxidised?

A metal is added to copper(II) sulfate solution. A displacement reaction only occurs if the metal added is more reactive than copper.

metal + copper(II) sulfate → metal sulfate + copper

Displacement reactions are exothermic. The more reactive the metal added, the greater the temperature rise. A student uses the following method in an experiment to compare the reactivities of different metals:

• Pour some copper(II) sulfate solution into a boiling tube and record its temperature using a thermometer
• Add some metal to the tube and stir with the thermometer
• Record the maximum temperature of the contents of the tube.

He repeats the method using the same amount, in moles, of different metals.

To make the experiment valid, he starts with the copper(II) sulfate solution and the added metal at the same temperature.

State two other variables that must be controlled if the experiment is to be valid.

Another student uses the same method three times for each of the metals E, F, G and H. The table shows her results for these metals.

The reactions of metals with water and with dilute sulfuric acid can be used to determine the order of reactivity of the metals.

The table shows the reactions of four metals, W, X, Y and Z, with water and with dilute sulfuric acid.

What is the order of reactivity of these metals?

A displacement reaction can also be used to decide the order of reactivity of two metals. 

State two observations made when an excess of magnesium powder is added to an aqueous solution of copper(ll) sulfate.

The diagram shows two samples of iron, A and B.

Sample B is coated with a thin layer of zinc.

Name the process used to coat iron with zinc.

The two samples of iron are left outside for several weeks.

A brown solid containing hydrated iron(III) oxide forms on sample A.

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1.......................................................................................................................

2.......................................................................................................................

Iron can be formed by reacting aluminium powder with iron(III) oxide.

The diagram shows how this reaction can be demonstrated.

When the magnesium fuse is lit, a very exothermic reaction occurs.

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2Al + Fe₂O₃ → 2Fe + Al₂O₃

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A student uses this method to investigate the reaction of dilute hydrochloric acid with zinc.

• pour some dilute hydrochloric acid into a glass beaker
• record the initial temperature of the acid
• add a piece of zinc and stir the mixture
• record the temperature of the mixture after one minute

Write a word equation for the reaction of dilute hydrochloric acid with zinc.

The diagram shows the thermometer readings for this reaction.

Complete the table, giving all values to the nearest 0.1 °C.

Another student repeats the method using five different metals to compare their reactivity.

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1...............................................................................................................................
2...............................................................................................................................
3...............................................................................................................................

The table shows some of the student’s results.

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temperature change = ...................................................................... °C

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When iron is left in damp air, rust forms on its surface.

A student uses this apparatus to find the approximate percentage by volume of oxygen in air.

This is the student’s method:

• Place a graduated glass tube in a beaker of water
• Place some damp iron wool and a rubber bung in the top of the tube
• Record the reading of the water level in the tube
• Leave the apparatus for a few days
• Record the reading of the water level again

The diagram shows the readings at the start and at the end of the experiment.

The student repeats the experiment using the same apparatus.

These are her results for the second experiment.

volume of air in tube at start = 80.0 cm³

reading at start = 20.0 cm³

reading at end = 35.5 cm³

Use the results to calculate the percentage by volume of oxygen in air.

percentage = ............................................... %

A student investigates the rusting of iron.

She places an iron nail in a test tube of water and leaves it for several days.

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The student then sets up two more test tubes containing iron nails.

Explain why the iron nail in tube 1 and the iron nail in tube 2 do not rust.

tube 1

tube 2

A reactivity series can be deduced by observing the reactions of metals with water and sulfuric acid. 

Four metals were added to water and sulfuric acid and the results recorded below. 

What is the order of reactivity starting with the least reactive? 

This question is about rusting.

When iron rusts, it reacts with oxygen in the air.

A student uses the rusting of iron to find the percentage of oxygen in a sample of air.

The diagram shows the apparatus.

These are the student’s results.
   volume of air in conical flask and connecting tube = 265 cm³
   volume of air in gas syringe at start = 100 cm³
   volume of air in gas syringe at end = 25 cm³

Calculate the percentage of oxygen in the sample of air using the student’s results.

percentage of oxygen = .............................................................. %

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A displacement reaction occurs between zinc and copper chloride.

Which half equation correctly shows the change that zinc undergoes? 

Zinc metal is obtained from sulfide ores. The most common ore of zinc is sphalerite, which contains zinc sulfide (ZnS) and a small amount of cadmium sulfide (CdS). The stages involved in the extraction of zinc from sphalerite are:

Stage 1: Sphalerite is strongly heated in air.

2ZnS (s) + 3O₂ (g) → 2ZnO (s) + 2SO₂ (g)

2CdS (s) + 3O₂ (g) → 2CdO (s) + 2SO₂ (g)

Stage 2: The mixture of oxides is reacted with sulfuric acid.

ZnO (s) + H₂SO₄ (aq) → ZnSO₄ (aq) + H₂O (l)

CdO (s) + H₂SO₄ (aq) → CdSO₄ (aq) + H₂O (l)

Stage 3: Zinc dust is added to the solution containing zinc sulfate and cadmium sulfate to remove the cadmium ions.

Cd²⁺ (aq) + Zn (s) → Cd (s) + Zn²⁺ (aq)

Stage 4: The solid cadmium is filtered off and the pure zinc sulfate solution is electrolysed.

State how the reaction in stage 3 shows that zinc is more reactive than cadmium.

Separate: Chemistry Only

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Separate: Chemistry Only

Zinc is mixed with copper to make the alloy brass. Explain why brass is harder than pure copper.

Manganese is extracted from manganese oxide, MnO₂ , by heating with aluminium powder. Molten manganese and a solid product are formed in this reaction.

Write a balanced symbol equation for this reaction. Include state symbols in your answer.

Use your answer to part a) to write the ionic equation for the reaction of manganese oxide with aluminium powder. You do not need to include state symbols in your answer.

In terms of electrons, explain why this reaction is classed as a redox reaction

Calculate the mass of aluminium that was required to react with manganese oxide, MnO₂, to form 200 g of manganese. 

(A_r: O = 16, Mn = 55, Al = 27)

Tin can be extracted by smelting tin(IV) oxide with carbon. This reaction forms molten tin and carbon monoxide. 

Write a balanced symbol equation for this reaction. Include state symbols in your equation.

Separate: Chemistry Only

Which is the correct formula of a compound that contains the tin(IV) ion?

Zinc is a more reactive metal than tin. It can reduce tin(IV) oxide to tin when they are heated together. 

Write a ionic equation for this reaction.