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Electrochemistry Measurement of Electrode Potential Electrode Potential of Galvanic Cell The galvanic cell has two electrode potentials; anode potential.

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Presentation on theme: "Electrochemistry Measurement of Electrode Potential Electrode Potential of Galvanic Cell The galvanic cell has two electrode potentials; anode potential."— Presentation transcript:

1 Electrochemistry Measurement of Electrode Potential Electrode Potential of Galvanic Cell The galvanic cell has two electrode potentials; anode potential and cathode potential. When the cell potential is measured with voltmeter, it gives the difference of both potentials but not an individual potential.

2 Electrochemistry Measurement of Electrode Potential Electrode Potential of Galvanic Cell

3 Electrochemistry Measurement of Electrode Potential Standard Electrode Potential It is impossible to measure the potential of just one electrode, but it can be circumvented by selecting a particular electrode as a standard electrode and assigning it a zero electrode potential and then measure the relative potential of an electrode in question in reference to that standard electrode potential.

4 Electrochemistry Measurement of Electrode Potential Standard Electrode Potential The hydrogen electrode is chosen as the standard electrode that consists of hydrogen gas bubbled through platinum electrode at 1 atm into 1M hydrochloric acid at 25 o C that has assigned zero as a standard electrode potential.

5 Electrochemistry Measurement of Electrode Potential Standard Electrode Potential

6 Electrochemistry Measurement of Electrode Potential If we want to measure the standard electrode potential for zinc electrode, then we construct the cell according to the following cell diagram: Zn(s) | Zn 2+ (aq) || H + (1 M) I H 2 (1 atm) / Pt(s) and measure the electrode potential, which is 0.76 V at 25 o C. This also happens to be the standard potential for zinc electrode.

7 Electrochemistry Measurement of Electrode Potential The given cell diagram is broken up into two half- reactions: Oxidation: Zn(s) → Zn 2+ (1M) + 2e - Reduction: 2H + (1M ) + 2e - → H 2 (1atm) Oxidation: Zn(s) → Zn 2+ (1M) + 2e - Reduction: 2H + (1M ) + 2e - → H 2 (1atm) By convention, the standard emf of the cell (E o cell) is the sum of oxidation and reduction potentials, is given by the following equation, E o cell = E o ox + E o red or 0.76 V = E o ox + 0 Thus, the standard oxidation potential for Zn is +0.76 V.

8 Electrochemistry Measurement of Electrode Potential

9 Electrochemistry Measurement of Electrode Potential Standard Electrode Potentials at 298 K

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