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Voltaic Cells web.fccj.org. consists of an electric cell that is made by placing conductors (electrodes) in conducting solutions (electrolytes) A cell.

Published byDeven Somes Modified over 9 years ago

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Presentation on theme: "Voltaic Cells web.fccj.org. consists of an electric cell that is made by placing conductors (electrodes) in conducting solutions (electrolytes) A cell."— Presentation transcript:

1 Voltaic Cells web.fccj.org

2 consists of an electric cell that is made by placing conductors (electrodes) in conducting solutions (electrolytes) A cell contains 2 half cells each with an electrode and electrolyte Positive electrode – cathode Negative electrode – anode Electrons move from anode to cathode This movement is called electricity Components of a Voltaic cell

3 Connecting wire – makes the external circuit Salt bridge or porous barrier – connects the two solutions without allowing mixing so that ions can move freely Chemtoons YouTube - Chemistry Music Video: Electrochemistry (You Start At The Anode)YouTube - Chemistry Music Video: Electrochemistry (You Start At The Anode)

4 Anode ▫Negative electrode ▫Electrons leave through the wire ▫Reducing agent is oxidized ▫Positive charge is produced in the electrolyte ▫Anions drift toward anode ▫Cations move away Cathode ▫Positive electrode ▫Electrons enter through the wire ▫Oxidizing agent is reduced ▫Positive charge is removed from the electrolyte ▫Cations drift toward the electrode ▫Anions move away

5 As negative electrical charges (electrons) are carried away from the anode to the cathode through the external circuit, a current is produced. Ions moving through the porous barrier maintain electrical neutrality in the solutions. voltaicCell Cell Notation Anode(-) / electolyte // electrolye / Cathode (+)

6 Cell Potential The difference in electrical potential energy between the anode and the cathode in the cell (v) ▫Depends on the relative tendency of the reactants in the cell to lose and gain electrons ▫Independent of the size of the cell

7 standard cell: all entities in the half reactions are at SATP and at concentration of 1.0 mol/L standard cell potential (E o ): the maximum electric potential difference of a standard cell. Difference per unit charge between the anode and the cathode. standard reduction potential (E r o ) is a relative measure of the tendency of an oxidizing agent to gain electrons (undergo reduction). The value may be reversed to obtain oxidation potentials. See redox table.

8 Values for the reduction potentials are assigned using hydrogen half cell as the reference half cell. ▫2H + (aq) + 2e-  H 2(g) E r o = 0.00 V ▫This half cell has been arbitrarily assigned a value of zero. ▫Reactions above are +, stronger oxidizing agents ▫Reactions below are -, and are stronger reducing agents

9 The standard cell potential is the sum of oxidation and reduction potentials in a cell  E o = E r o – E r o or  E o = E red o + E ox o ▫If  E o is positive  spontaneous reaction ▫If  E o is negative  non spontaneous reaction Galvanic Cell with Zinc and CopperGalvanic Cell with Zinc and Copper (You-tube) Galvanic Cell with Zinc and Copper

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