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20/11/2018 nrt.

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Presentation on theme: "20/11/2018 nrt."— Presentation transcript:

1 20/11/2018 nrt

2 Electrolysis Electrolysis is the chemical decomposition of an ionic compound by a direct electrical current. Electrolysis is carried out in an electrolytic cell. The compound must be either molten, or in aqueous solution for electrolysis to take place. DC Supply A pair of metal or graphite electrodes. Electrolyte, either a molten ionic solid or an ionic aqueous solution. 20/11/2018 nrt

3 Electrolysis When an ionic solid melts, or dissolves in water, positive and negative ions are formed. In a liquid medium these ions are free to migrate within the body of the liquid. They will migrate under the influence of an electrical field. Negative ions (anions) migrate to the positive electrode (anode). Positive ions (cations) migrate to the negative electrode (cathode). DC Supply A pair of metal or graphite electrodes. Electrolyte, either a molten ionic solid or an ionic aqueous solution. 20/11/2018 nrt

4 Electrolysis At the anode, the anions surrender electrons which pass around the circuit driven by the DC supply. The anions become atoms... Y-  Y + e- At the cathode, the cations take up electrons from the circuit. The cations become atoms... X+ + e-  X DC Supply A pair of metal or graphite electrodes. Electrolyte, either a molten ionic solid or an ionic aqueous solution. 20/11/2018 nrt

5 The Electrolysis of Molten Sodium Chloride
Anode Cathode Molten sodium chloride electrolyte Negative chloride ion migrates to anode Positive sodium ion migrates to cathode 20/11/2018 nrt

6 The Electrolysis of Molten Sodium Chloride
When NaCl (s) is melted, the molten sodium chloride becomes Cl- (l) + Na+ (l). Therefore during electrolysis: At the anode... 2Cl-  Cl2(g) + 2e- ...chlorine gas is formed, and at the cathode... 2Na e-  2Na(s) ...sodium metal is formed. 20/11/2018 nrt

7 The Electrolysis of Sodium Chloride Solution
A solution of sodium chloride will also act as an electrolyte. The electrolyte will contain Na+ and Cl- ions. In addition, the water will also provide hydrogen ions (H+) and hydroxide ions (OH-) to the electrolyte. 20/11/2018 nrt

8 The Electrolysis of Sodium Chloride Solution
Oxygen can be produced at the anode... 4OH-  O H2O + 4e- Chlorine can also be produced at the anode... 2Cl-  Cl e- The production of oxygen at the anode means that we will get a mixture of chlorine and oxygen gas. 20/11/2018 nrt

9 Electroplating EPNS stands for: Electro-Plated Nickel Silver.
This nickel object has been plated with a thin layer of silver. Metal objects can be plated with gold , silver, copper or other metals using electrolysis. 20/11/2018 nrt

10 Copper Plating Impure copper anode Metal cathode Layer of copper forms on cathode Copper ions migrate to cathode The anode is a piece of impure copper, which is used to ‘plate’ the metal cathode. The electrolyte is a solution of a copper salt, e.g. copper sulphate. The cathode may be a piece of jewellery, or an ornament. The surface of the cathode will become plated with copper from the anode. 20/11/2018 nrt

11 A piece of zinc foil is plated with copper.
Copper Plating A piece of zinc foil is plated with copper. 20/11/2018 nrt

12 Copper Plating At the anode, Cu  Cu2+ + 2e-
...copper ions are formed, and at the cathode... Cu e-  Cu ...copper metal is formed. A similar approach is used to plate various objects with a variety of metals... 20/11/2018 nrt

13 Chromium Plating 20/11/2018 nrt

14 Gold Plating Silver Plating
20/11/2018 nrt

15 Dry Cells Dry Cells are the most obvious everyday use of electrolysis.
20/11/2018 nrt

16 Dry Cells Insulating plastic case Positive terminal (brass cap)
Carbon rod (positive electrode) Zinc case (negative electrode) Powdered carbon and manganese IV oxide Ammonium chloride paste (electrolyte) Negative terminal (zinc case bottom) 20/11/2018 nrt

17 Dry Cells - Rechargeable
Ni-Cd (Nickel Cadmium) and Ni-MH (Nickel Metal Hydride) batteries are rechargeable, and have a much longer life than disposable dry cells. 20/11/2018 nrt

18 Extension Material 20/11/2018 nrt

19 The Electrolysis of Water
Pure water is not a good conductor of electricity. However, the electrolysis of water can be carried out by adding a small amount of dilute sulphuric acid to distilled water. Oxygen Hydrogen Water + drops of dilute Sulphuric acid Graphite rod (Cathode –) Graphite rod (Anode +) Electric Current 20/11/2018 nrt

20 The Electrolysis of Water
4H2O  4H+ + 4OH- At the cathode... 4H e- = 2H2 At the anode… 4OH- = O H2O + 4e- 20/11/2018 nrt

21 The Electrolysis of Other Salt Solutions
Problems can arise when using aqueous solutions of electrolytes because of the presence of water. If two types of cation are present in the electrolyte then a competition reaction will take place at the cathode. The relative positions of the metal and hydrogen (from water) in the reactivity series will determine which element is formed at the cathode. 20/11/2018 nrt

22 Reactivity Series 1. Potassium 2. Sodium 3. Calcium 4. Magnesium 5. Aluminium 6. Zinc 7. Iron 8. Lead 9. Hydrogen 10. Copper 11. Mercury 12. Silver 13. Gold The element which is lowest in the table will be produced at the cathode, e.g... 1. In a solution of sodium chloride, sodium and hydrogen ions will be present. Hydrogen is lowest in the table and therefore hydrogen is produced at the cathode. 2. In a solution of silver chloride, silver and hydrogen ions will be present. Silver is lowest in the table and therefore silver is produced at the cathode. If an anion present in an aqueous solution is nitrate or sulphate, oxygen will also be produced at the anode. If the anion present in an aqueous solution is a halide ion, the halogen is produced at the anode. 20/11/2018 nrt

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