2. A silver metal indicating electrode and a standard hydrogen reference electrode are dipped into a solution containing Ag*. From the potentiometric measurement, the potential at the silver electrode is found to be +0.692 v. Calculate the molarity of silver(I) in the solution. E° = 0.800 v Ag* + e- Ag(s)

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2. A silver metal indicating electrode and a standard hydrogen reference electrode are dipped into
a solution containing Ag*. From the potentiometric measurement, the potential at the silver
electrode is found to be +0.692 v. Calculate the molarity of silver(I) in the solution.
Ag+ + e- Ages)
E° = 0.800 v
3. A platinum indicator electrode dipping into a solution containing Fe3+ and Fe2+ is used with a
standard hydrogen reference electrode. If the measured difference in potential is +0.948 v,
calculate the ratio of Fe to Fe2* in the solution.
4. Calculate the potential of a platinum electrode in contact with a solution containing 0.1 M VO2*,
0.1 M VO, and 4M perchloric acid.
Vo2* + 2H* + e-vo + H20
E° = 1.000 v
Transcribed Image Text:2. A silver metal indicating electrode and a standard hydrogen reference electrode are dipped into a solution containing Ag*. From the potentiometric measurement, the potential at the silver electrode is found to be +0.692 v. Calculate the molarity of silver(I) in the solution. Ag+ + e- Ages) E° = 0.800 v 3. A platinum indicator electrode dipping into a solution containing Fe3+ and Fe2+ is used with a standard hydrogen reference electrode. If the measured difference in potential is +0.948 v, calculate the ratio of Fe to Fe2* in the solution. 4. Calculate the potential of a platinum electrode in contact with a solution containing 0.1 M VO2*, 0.1 M VO, and 4M perchloric acid. Vo2* + 2H* + e-vo + H20 E° = 1.000 v
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