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Unit 8: Electrochemistry Applications

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Presentation on theme: "Unit 8: Electrochemistry Applications"— Presentation transcript:

1 Unit 8: Electrochemistry Applications
Lesson 6: Electrolysis

2 Electrolysis Electrolysis is the process of supplying electrical energy to a non-spontaneous chemical reaction so that it can occur. An electrolytic cell is an apparatus in which electrolysis can occur.

3 Electrolysis of a Molten Binary Salt
When a binary salt (a salt consisting of two different elements) is melted, its ions are mobile and can be made to react. Since the reaction is non-spontaneous, no salt bridge is needed to separate the reactants. Electrodes are made of inert materials such as C or Pt.

4 In the example below, the only reactants present are Na+ and Cl-.
Looking at the table, we can find that E°cell is V and thus the reaction between Na+ and Cl- is non-spontaneous. Hence, to make this cell operate, at least V must be applied.

5 Practice: Pg. 238 #64 (a and b) 10 min

6 Brain Break! Spot It!

7 Electrolysis of an Aqueous Salt
Set-up is similar to that with a molten salt (no salt bridge, inert electrodes), but now H2O is a possible reactant, and must be considered! The same rule as with electrochemical cells applies: the species with the greatest tendency to reduce and to oxidize will react preferentially.

8 The Overpotential Effect
When electricity is being applied to a cell, reactions involving water have a different tendency to occur than when reactions are spontaneous. This is called the overpotential effect and is shown on your table. Be sure to take this into account!

9 Example What is the overall reaction and the minimum voltage that must be applied when a 1 M HCl(aq) solution is electrolyzed using carbon electrodes? 10 min

10 Practice: Pg. 242 #65 10 min

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