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Balance Redox Rxns:

Balance Redox Rxns:. Fe(OH) 3 + [Cr(OH) 4 ] -1 Fe(OH) 2 + CrO 4 -2. AP CHM HW. Read: Chapter 18. Review the Multiple-Choice Section of the Midterm. Electro-chemistry. Metallic Conduction. The flow of electrons through a metal. Ionic Conduction.

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Balance Redox Rxns:

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  1. Balance Redox Rxns: • Fe(OH)3 + • [Cr(OH)4]-1 • Fe(OH)2 + CrO4-2

  2. AP CHM HW • Read: Chapter 18

  3. Review the Multiple-Choice Section of the Midterm.

  4. Electro-chemistry

  5. Metallic Conduction • The flow of electrons through a metal

  6. Ionic Conduction • The movement of ions (electrolytes) through a solution • Electrolytic Conduct.

  7. Electrode • The surface or point in which oxidation or reduction takes place

  8. Anode • The electrode where oxidation takes place • An Ox (-)

  9. Cathode • The electrode where reduction takes place • Red Cat (+)

  10. Voltaic or Galvanic Cell • Electrochemical Cell in which:

  11. a spontaneous oxidation-reduction reaction produces electrical energy

  12. Half-Cell • A cell where only oxidation or only reduction takes place

  13. An electrochemical cell must have two half-cells connected by a salt bridge

  14. A half-cell will not work by itself • Both half-cells are required

  15. Salt Bridge • ) Allows electrical contact between the two half-cells

  16. ) Prevents mixing of the two half-cell solutions

  17. ) Allows ions to flow maintaining electrical neutrality

  18. Determining the Redox Rxn & Voltage of an Electrochemical Cell

  19. Identify all molecules & ions (reactants) that exist in the electrolytic cell

  20. ) Determine all possible half-reactions that could occur in the system

  21. ) Look up each half-rxn from the Std. Redox Tables

  22. ) Record each half-rxn & its standard voltage

  23. ) Save the oxidation half-rxn that has the highest voltage

  24. ) Save the reduction half-rxn that has the highest voltage

  25. ) Balance the electrons between the two half-rxns

  26. ) Add the two half-rxns to obtain the full electrochemical reaction

  27. ) Add the voltage of each half-rxn to obtain the std. voltage required

  28. Determine Eo Zn(s) + 2 Ag+1(aq) 2 Ag(s) + Zn+2(aq)

  29. AP CHM HW • Read: Chapter 18 • Problems: 7 & 15a • Page: 526

  30. REDOX Shorthand • Zn|Zn+2||Ag+1|Ag ox red • Zn||Zn|Zn+2||Ag+1|Ag||Pt an ox red cat

  31. Drill: Determine Shorthand Rxn & voltage when Cu+1 is reacts with solid potassium

  32. Voltaic Cell Problems

  33. Determine all when a cell with a Cu electrode in CuCl2(aq) is connected to a cell with a Zn electrode in ZnBr2(aq)

  34. Determine all when a cell with a Fe electrode in FeCl3(aq) is connected to a cell with a Mn electrode in MnCl2(aq)

  35. Determine all when a cell with a Mg electrode in MgCl2(aq) is connected to a cell with a Au electrode in AuCl3(aq)

  36. Drill: What is the best reducing agent on the chart?

  37. Electrolysis • Using electricity to force an, oh fooey, non-spontaneous electrochemical rxn

  38. Electrolytic Cell • Chemical cell where electrolysis is being performed

  39. How to determine the Redox Rxn & voltage of an Electrolytic Cell

  40. Identify all molecules & ions (reactants) that exist in the electrolytic cell

  41. ) Determine all possible half-reactions that could occur in the system

  42. ) Look up each half-rxn from the Std. Redox Tables

  43. ) Record each half-rxn & its standard voltage

  44. ) Save the oxidation half-rxn that has the highest voltage

  45. ) Save the reduction half-rxn that has the highest voltage

  46. ) Balance the electrons between the two half-rxns

  47. ) Add the two half-rxns to obtain the full electrochemical reaction

  48. ) Add the voltage of each half-rxn to obtain the std. voltage required

  49. Determine the rxn that takes place when 1.5 V is passed through two Pt electrodes in a solution containing MgI2(aq) & ZnCl2(aq)

  50. AP CHM HW • Read: Chapter 18 • Problems: 23 • Page: 527

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