A galvanic cell is constructed using two half-cells: Zn electrode and Zn(NO3)2 (Zn|Zn*2), and Ag electrode and AGNO3 (AgJAg*). Determine the ff: 1. E°cll 2. Electrochemical / Redox Reaction 3. How many electrons are being transferred? 4. Cathode and Anode 5. Cell Notation Use these half-cell reductions for Zn|Zn*2 and Ag|Ag* +2 + 2e + Zn() E° = –0.762 V Aga) Ag(s) E° = 0.799 V +e-

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A galvanic cell is constructed using two half-cells: Zn electrode and Zn(NO3)2 (Zn|Zn*2), and Ag electrode and AgNO3 (Ag|Ag*). Determine
the ff:
1. E°cll
2. Electrochemical / Redox Reaction
3. How many electrons are being transferred?
4. Cathode and Anode
5. Cell Notation
Use these half-cell reductions for Zn|Zn+2 and Ag|Ag*
Zn, + 2e
(ag)
+ Zn() E° = –0.762 V
+e → Ag() E° = 0.799 V
Transcribed Image Text:A galvanic cell is constructed using two half-cells: Zn electrode and Zn(NO3)2 (Zn|Zn*2), and Ag electrode and AgNO3 (Ag|Ag*). Determine the ff: 1. E°cll 2. Electrochemical / Redox Reaction 3. How many electrons are being transferred? 4. Cathode and Anode 5. Cell Notation Use these half-cell reductions for Zn|Zn+2 and Ag|Ag* Zn, + 2e (ag) + Zn() E° = –0.762 V +e → Ag() E° = 0.799 V
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