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Electrochemical & Electrolytic Cells Using Redox Reactions in everyday life.

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Presentation on theme: "Electrochemical & Electrolytic Cells Using Redox Reactions in everyday life."— Presentation transcript:

1 Electrochemical & Electrolytic Cells Using Redox Reactions in everyday life

2 Uses for Redox Reaction Electrochemical or Voltaic Cell – redox reactions that are utilized to produce electrical energy. (Ex. Batteries, fuel cells)

3 Electrons flow “downhill” An electrochemical or voltaic cell can be compared to a hydro-electric power plant. In the power plant the energy of the water is harnessed as the water flows downhill. In a electrochemical or voltaic cell, the energy of the electrons is harnessed as they flow “downhill” in terms of energy. Electrochemical/voltaic cells are spontaneous. They are used to produce electricity.

4 Parts of an electrochemical cell Cathode –the electrode where reduction occurs (Cathode and reduction both begin with a consonant.) Anode – the electrode where oxidation occurs (Anode and oxidation both begin with a vowel). Salt Bridge – part of a voltaic cell that prevents positive or negative charge from building up at the electrodes. Ions flow through the salt bridge.

5 How to keep them straight!

6 The parts of a voltaic cell

7 The parts identified

8 Electrolytic Cells Redox reaction that uses electrical energy to produce chemical energy. (Ex. Electroplating, re-charging batteries)

9 Pumping electrons uphill To continue the analogy to water, the electrolytic cell is like pumping water uphill, it requires energy. In an electrolytic cell the electrons are “pumped” uphill by a power source. Electrolytic cells are non-spontaneous. They require energy to take place.

10 COMPARISON OF VOLTAIC AND ELECTROLYTIC CELLS SPONTANEOUSNON-SPONTANEOUS

11 One use of electrolytic cells is electroplating where electricity is used to deposit a thin layer of metal atoms on the surface of an object. Remember: Electrolytic cells are non-spontaneous. They require a power source to take place.

12 Which way do the electrons flow? When two half cells are hooked together, how does one determine which one will be oxidized (give off electrons) and which one will be reduced (gain electrons)? The answer to that question can be provided by Table J – The Activity Series

13 Determining the direction the electrons flow in Voltaic Cells Electrons flow from the more active metal to the less active metal Electrons flow from the less active non-metal to the more active non-metal

14 A sample problem Suppose a Cu/Cu 2+ half cell and a Ag/Ag + half cell are connected to form a battery. Which way will the electrons flow? Based on Table J, Cu is a more active metal than Ag. Therefore, the electrons will flow from the Cu/Cu 2+ half-cell to the Ag/Ag + half-cell.

15 You try one! Suppose a Fe/Fe 3+ half cell and a Al/Al 3+ half cell are connected to form a battery. Which way will the electrons flow? Did you say the electrons would flow from the Al to the Fe? That’s what Table J tells us!


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