A student uses the apparatus to electrolyse an aqueous solution of copper(II) sulfate.
Which substances are formed at the negative electrode (cathode) and the positive electrode (anode)?
| ☐ | A | Negative electrode: hydrogen | Positive electrode: sulfur | |
| ☐ | B | Negative electrode: copper | Positive electrode: oxygen | |
| ☐ | C | Negative electrode: sulfur | Positive electrode: hydrogen | |
| ☐ | D | Negative electrode: oxygen | Positive electrode: copper |
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A pure sample of molten lead(II) chloride was electrolysed.
Which is the correct statement about this electrolysis?
| ☐ | A | The lamp would stop working soon after the heat was removed | |
| ☐ | B | A silvery liquid would be seen at the positive electrode | |
| ☐ | C | Chlorine is formed at the negative electrode | |
| ☐ | D | Hydrogen gas is formed at the negative electrode |
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A student was investigating the electrolysis of zinc chloride.
What is the correct reason for electrolysis not working?
| ☐ | A | Solid zinc chloride has been used | |
| ☐ | B | The electrodes don't conduct electricity | |
| ☐ | C | The power supply is not connected properly | |
| ☐ | D | The crucible is too small to allow ions to flow |
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Two compounds of barium are barium sulfide and barium chloride.
The hazard symbol shown in Figure 5 is on bottles containing barium metal.
State the meaning of this hazard symbol.
Give the names of the elements combined in barium sulfide.
Barium chloride is toxic.
Explain one safety precaution that should be taken when using barium chloride.
Figure 6
The total mass reading on the balance was 25.7 g.
The dilute sulfuric acid was poured into the barium chloride solution and the beaker replaced on the balance, as shown in Figure 7.
Figure 7
The mixture formed contained a white precipitate.
State the total mass reading on the balance after the reaction.
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Solid sodium chloride is dissolved in water.
The sodium chloride solution is electrolysed in the apparatus shown in Figure 8.
Figure 8
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Circle the ions that would be attracted to the anode.
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This question is about electrolysis.
Draw one line from the electrolysis keyword to the correct definition.
Ionic compounds are capable of being electrolysed under certain conditions.
Use words from the box to complete the sentences.
|
Ionic compounds cannot conduct electricity when they are _________________ .
This is because they have __________________ that can move and carry charge.
To conduct electricity, an ionic compound must be __________________ or dissolved in solution.
| Positive ions move towards the negative electrode | |
| Negative ions move towards the cathode | |
| Negative ions remain in solution | |
| Positive ions move towards the anode | |
| Negative ions move towards the anode |
Name the two products formed when molten lead bromide undergoes electrolysis.
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This question is about the metal aluminium.
Aluminium is malleable and conducts electricity.
The diagram shows the arrangement of the ions in aluminium metal.
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Aluminium is extracted industrially by the electrolysis of molten aluminium oxide Al2O3 at a temperature of about 950 °C.
Aluminium metal forms at the negative electrode and oxygen gas forms at the positive electrode. The positive and negative electrodes are made of graphite.
The diagram shows the apparatus used.
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.............................................................. → ..............................................................
Aluminium reacts with iron(III) oxide. The reaction is exothermic.
The equation for the reaction is
2Al + Fe2O3 → Al2O3 + 2Fe
(1)
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The diagram shows how hydrogen gas and chlorine gas can be prepared in the laboratory by electrolysis of a concentrated solution of sodium chloride.
The ionic half-equation for the formation of chlorine at the positive electrode is
2Cl− → Cl2 + 2e−
In the chemical industry, chlorine can be produced by the electrolysis of molten sodium chloride. The overall equation for this reaction is
2NaCl (l) → 2Na (l) + Cl2 (g)
volume = ........................................... dm3
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Explain why metals conduct electricity but covalent compounds do not conduct electricity.
Hydrogen chloride, HCl, is a covalent substance. When hydrogen chloride is added to water, a solution of dilute hydrochloric acid is formed. This solution does conduct electricity. Name the type of particle in the solution of the dilute hydrochloric acid that allows it to conduct electricity.
The teacher uses this apparatus to investigate the electrolysis of a solution of dilute hydrochloric acid. The ammeter measures the current.
| Current in amp | 0.1 | 0.2 | 0.3 | 0.4 | 0.5 | 0.6 | 0.7 | 0.8 |
| Volume of gas in cm3 | 8 | 15 | 22 | 25 | 37 | 44 | 52 | 60 |
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The ionic half-equation for the reaction that produces the gas in syringe X is
The ionic half-equation for the reaction that produces the gas in syringe Y is
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A teacher prepares the insoluble salt lead(II) bromide (PbBr2) by mixing solutions of lead(II) nitrate and sodium bromide.
Describe what the teacher should do next to obtain a pure, dry sample of lead(II) bromide.
The teacher then sets up a circuit in a fume cupboard using the pure, dry sample of lead(II) bromide.
Explain why the lamp does not light when the lead(II) bromide is solid.
The teacher heats the lead(II) bromide.
When the lead(II) bromide is molten, the lamp lights and bromine forms at the positive electrode.
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(4)
Write an ionic half-equation for the reaction that occurs at the negative electrode.
Include state symbols in your equation.
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This question is about sodium chloride.
Describe, in terms of electrons and with the help of suitable equations, what happens during the electrolysis of molten sodium chloride.
The products of electrolysis of molten sodium chloride are different to those of aqueous sodium chloride.
Explain the different products from the electrolysis of aqueous sodium chloride.
Nuclear submarines can stay underwater for months without needing to come to the surface.
Oxygen for the crew to breathe is produced using a piece of equipment called an automated electrolytic oxygen generator.
Many people assume that seawater is electrolysed to produce the oxygen, this assumption is incorrect.
Explain why the assumption is not only incorrect but potentially hazardous and how the oxygen can be produced by electrolysis.
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This question is about copper and its compounds.
Copper is a metal used for electrical wiring.
Explain why copper is a good conductor of electricity.
This apparatus is used to investigate the electrolysis of copper(II) sulfate solution with graphite electrodes.
Copper forms at the negative electrode and oxygen forms at the positive electrode.
4 marksWhen hydrated copper(II) sulfate crystals are heated, anhydrous copper(II) sulfate forms.
A mass of 12.5g of hydrated copper(II) sulfate crystals is heated in a crucible until all the water of crystallisation is removed.
A mass of 8.0g of anhydrous copper(II) sulfate forms.
Show by calculation that the formula of hydrated copper(II) sulfate is CuSO4.5H2O
[Mr of CuSO4 = 159.5 Mr of H2O = 18]
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Hydrogen gas and chlorine gas can be prepared in a laboratory by electrolysis of a concentrated solution of sodium chloride.
Which is the ionic half-equation that represents the formation of chlorine gas at the positive electrode?
| ☐ | A | Cl- → Cl + e- | |
| ☐ | B | 2Cl- → Cl2 + 2e- | |
| ☐ | C | Cl2 + 2e- → 2Cl- | |
| ☐ | D | 2Cl- + 2e- → Cl2 |
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Electrolysis can be used to separate molten lead bromide.
Which statement is true for what happens at the negative electrode?
| ☐ | A | Lead atoms are oxidised | |
| ☐ | B | Lead atoms are reduced | |
| ☐ | C | Lead ions are oxidised | |
| ☐ | D | Lead ions are reduced |
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This question is about the electrolysis of copper(II) sulfate solution.
The diagram shows the apparatus used for the electrolysis.
| Time in minutes | Total increase in mass of the negative electrode in grams |
| 0 | 0.00 |
| 1 | 0.15 |
| 2 | 0.27 |
| 3 | 0.34 |
| 4 | 0.39 |
| 5 | 0.41 |
| 6 | 0.42 |
| 7 | 0.42 |
| 8 | 0.42 |
The product at the positive electrode is oxygen gas.
The wire used to connect the power supply to the electrodes is made of copper metal.
The diagram shows the arrangement of the ions in a metal.
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When copper(II) sulfate undergoes electrolysis, it produces oxygen gas at the positive electrode.
The unbalanced half equation below represents the reaction that occurs at the positive electrode.
Which numbers will correctly balance the half equation?
___ H2O → O2 + ___ H+ + ___ e-
| ☐ | A | 2,2,2 | |
| ☐ | B | 2,4,2 | |
| ☐ | C | 2,4,4 | |
| ☐ | D | 4,4,2 |
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This question is about the metal, lead.
Explain why metals, such as lead, are malleable.
A teacher uses this apparatus in a fume cupboard to demonstrate the electrolysis of lead(II) bromide.
The lead(II) bromide is heated until it melts.
When the lead(II) bromide melts, the lamp lights.
One of the products of this electrolysis is lead.
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2Br– → ............................................... + ...............................................
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