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Mg(s)

e -. e -. -2.72 V More Reactive Loses e - Oxidized Negative Electrode Anode Releases Mg +2 Loses Mass Mg  Mg +2 + 2e -. +.80 V Less Reactive Gains e - Reduced Positive Electrode Cathode Attracts Gains Mass Ag +1 + 1e -  Ag. Mg(s). Ag(s). Mg +2. Neg ions.

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Mg(s)

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  1. e- e- -2.72 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  2. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  3. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  4. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  5. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  6. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  7. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  8. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  9. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  10. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  11. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  12. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  13. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  14. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  15. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  16. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  17. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  18. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  19. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  20. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  21. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  22. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  23. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  24. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  25. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.52 V

  26. e- e- -2.38V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.38 V + 0.80 V = 3.52 V

  27. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.38 V + 0.80 V = 3.52 V

  28. e- e- -2.38 V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Ag+ Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.38 V + 0.80 V = +3.18 V

  29. e- e- -2.38V More Reactive Loses e- Oxidized Negative Electrode Anode Releases Mg+2 Loses Mass Mg  Mg+2 + 2e - +.80 V Less Reactive Gains e- Reduced Positive Electrode Cathode Attracts Gains Mass Ag+1 + 1e -  Ag Mg(s) Ag(s) Mg+2 Neg ions Pos ions Ag+1 Porous Partition (-) -2.72 V + 0.80 V = 3.38V

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