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Oxidation and Reduction Reactions

Oxidation and Reduction Reactions. Oxidation (Read only). Original definition: When substances combined with oxygen. Ex: All combustion (burning) reactions CH 4 (g) + 2O 2 (g) CO 2 (g) + 2H 2 O(l) All “rusting” reactions 4Fe(s) + 3O 2 (g) 2Fe 2 O 3 (s). Reduction (Read Only).

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Oxidation and Reduction Reactions

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  1. Oxidation and Reduction Reactions

  2. Oxidation (Read only) Original definition: When substances combined with oxygen. Ex: All combustion (burning) reactions CH4(g) + 2O2(g) CO2(g) + 2H2O(l) All “rusting” reactions 4Fe(s) + 3O2(g) 2Fe2O3(s)

  3. Reduction (Read Only) Original Definition: Reaction where a substance “gave up” oxygen. Called “reductions” because they produced products that were “reduced” in mass because gas escaped. Ex: 2Fe2O3(l) + 3C(s) 4Fe(l) + 3CO2(g)

  4. Oxidation/Reduction Deals with movement of ELECTRONS during a chemical reaction. (Oxygen doesn’t have to be present)

  5. Electron Transfer Reactions Oxidation: LOSS of one or more electrons. Reduction: GAIN of one or more electrons

  6. Electron Transfer Reactions Oxidation & reduction always occur together. Electrons travel from what is oxidized towards what is reduced. One atom loses e-, the other gains e-

  7. Redox Reactions: ALWAYS involve changes in charge A competition for electrons between atoms!

  8. Remember!!

  9. Or…Remember

  10. Conservation of “Charge” Total electrons lost = Total electrons gained

  11. Oxidizing/Reducing Agents Oxidizing Agent: substance reduced • Gains electrons Reducing Agent: substance oxidized • Loses electrons The “Agent” is the “opposite”

  12. Assigning Oxidation Numbers Practice Problems http://www.usca.edu/chemistry/genchem/oxnumb.htm Animation of Oxidation and Reduction http://www.ausetute.com.au/redox.html

  13. Identify What is Changing in Charge What is oxidized and reduced? What are the oxidizing and reducing agents? Ex: 3Br2 + 2AlI3 2AlBr3 + 3I2

  14. 0 +3 -1 +3 -1 0 3Br2 + 2AlI3 2AlBr3 + 3I2 Br2 is reduced and is the oxidizing agent I-1 is oxidized and is the reducing agent

  15. What is oxidized and reduced? What are the oxidizing and reducing agents? Mg + CuSO4 MgSO4 + Cu 2K + Br2 2KBr Cu + 2AgNO3 Cu(NO3)2 + 2Ag NOTE: Atoms in a polyatomic ion DO NOT change in charge!

  16. 0 +2 +2 0 Mg + CuSO4 MgSO4 + Cu Mg oxidized (reducing agent) Cu+2 reduced (oxidizing agent) 0 0 +1 -1 2K + Br2 2KBr K oxidized (reducing agent) Br2 reduced (oxidizing agent) 0 +1 +2 0 Cu + 2AgNO3 Cu(NO3)2 + 2Ag Cu oxidized (reducing agent) Ag+1 reduced (oxidizing agent)

  17. Redox or Not Redox (that is the question…) Redox Reactions: must have atoms changing in charge. Not all reactions are redox. Easy way to spot a redox reaction!!! Look for elements entering and leaving compounds.

  18. Is it Redox? Look for Changes in Charge! Are elements entering and leaving compounds? Synthesis: Ex: 2H2 + O2 2H2O Decomposition: Ex: 2KClO3 2KCl + 3O2

  19. Is it Redox? Synthesis: YES 0 0 +1 -2 Ex: 2H2 + O2 2H2O Decomposition: YES +1 +5 -2 +1 -1 0 Ex: 2KClO3 2KCl + 3O2

  20. Is it Redox? Combustion: CH4 + 2O2 CO2 + 2H20 Single Replacement: Zn + CuCl2 ZnCl2 + Cu

  21. Is it Redox? Combustion:YES -4 +1 0 +4 -2 +1 -2 CH4 + 2O2 CO2 + 2H20 Single Replacement:YES 0 +2 -1 +2 -1 0 Zn + CuCl2 ZnCl2 + Cu

  22. Is it Redox? Double Replacement: AgNO3 + LiCl AgCl + LiNO3

  23. Is it Redox? Double Replacement:NO!!!! Ions switch partners, but don’t change in charge +1 +5 -2 +1 -1 +1 -1 +1 +5 -2 AgNO3 + LiCl AgCl + LiNO3 Remember charges of atoms inside polyatomic ions do not change!

  24. Writing Half Reactions Redox Reactions are composed of two parts or half reactions. Half Reactions Show: Element being oxidized or reduced. Change in charge # of electrons being lost or gained

  25. Writing Half Reactions 0 0 +1 -1 2Na + F2 2NaF Oxidation: Na Na+1 + 1e- or 2Na 2Na+1 + 2e- Note: e- are “lost” (on the right of arrow) Reduction: F + 1e- F-1 or F2 + 2e- 2F-1 Note: e- are “gained” (on the left of arrow)

  26. Ox’s Have Tails!! • Oxidation Half reactions always have “tails” of electrons Na Na+1 + 1e-

  27. 0 +2 -1 +2 -1 0 Zn + CuCl2 ZnCl2 + Cu Ox: Zn Zn+2 + 2e- Red: Cu+2 + 2e- Cu

  28. Balancing Simple Redox Rxns Must be: Balanced for Mass ATOMS balance Balanced for Charge Total e- Lost = Total e- Gained

  29. Balancing Harder Redox Reactions(Honors)

  30. Oxidation Number Method(Balancing in Acid Solution) • Find ox #’s and use brackets to connect elements changing in charge. • Balance atoms changing in charge • Find total e- involved in each change • If necessary balance e- by multiplication • Balance all other atoms except H and O • Balance oxygen by adding H2O to side deficient • Balance hydrogen by adding H+1 to side deficient • Check for balance with respect to atoms and charge.

  31. Half Reaction Method (Ion/Electron Method)(In acid solution) • Separate equation into two “basic” half reactions • Balance all atoms except H and O • Balance oxygen by adding H2O • Balance hydrogen by adding H+1 • Balance charge by adding electrons to more positive side • If necessary balance e- by multiplication • Add together half reactions and simplify • Check for balance of atoms and charge

  32. Applications of Redox Reactions Corrosion of Metals the metal gets oxidized forming metal oxides on the surface Prevention: Use paint, oil, plating or attach to negative terminal of a battery. Gold doesn’t rust…Why?

  33. Photograph Development involves oxidation and reduction of silver atoms and ions

  34. Bleach acts on stains by oxidizing them, getting reduced in the process Explosives form neutral gases like N2 from compounds!

  35. Reactivity of Metals Reference Table J Metals Higher on Table J are more ‘active” It is easier for more “active” metals to be oxidized or lose electrons.

  36. Copper replaces silver! Cu0(s) + AgNO3(aq) Ag0(s) + CuNO3(aq) Ag0(s) + CuNO3(aq) wouldn’t happen!!!

  37. Reactivity of Nonmetals Reference Table J Nonmetals higher on Table J are more “active” It is easier for more “active” nonmetals to “gain” electrons and be reduced.

  38. Electrochemical Cells (Batteries) Chemical reaction that produces electricity. Called “voltaic cells” as they produce voltage This happens SPONTANEOUSLY.

  39. Moving Electrons = Electricity Electrons given off by oxidized substance travel towards substance being reduced. Traveling electrons move through “external circuit” where they do work.

  40. How do the Electrons Move? Batteries often contain 2 metals. Start with Table J Electrons travel from the more “Active metal” toward the less active metal. Metal above = oxidized Ion on Metal below = reduced

  41. Electrons flow “Down Table J” From metal above to ion of metal below e-

  42. Parts of a Simple Battery (Voltaic Cell) Made of Two “Half Cells” containing: 2 Metal Electrodes 2 Solutions of Ions External Wire Salt Bridge

  43. Electrons need to flow in a “circuit” that is connected. External Wire: allows electrons to flow between metal electrodes Salt Bridge: allows ions to flow between solutions

  44. Zn/Zn+2//Cu+2/Cu What is Ox/Red? See Table J Metal above is oxidized Zn Ion of metal below reduced Cu+2

  45. Which way do electrons flow in the external wire? See Table J Electrons flow “Down” the table from what is oxidized towards what is reduced. from Zn to Cu e-

  46. Which electrode is negative? Which electrode is positive? Electrons flow from negative to positive electrode. Negative electrode: Zn Positive electrode: Cu e-

  47. Which electrode is the anode and cathode? Anode: metal electrode where oxidation occurs Zn Cathode: metal electrode where reduction occurs Cu

  48. Remember AN OX RED CAT Anode is where oxidation happens Cathode is where reduction happens

  49. What are the Half Reactions? What is the Net Equation? Ox: Zn0 Zn+2 + 2e- Red: Cu+2 + 2e- Cu0 Net: (add ½ reactions) Zn0 + Cu+2 Zn+2 + Cu0 Make sure final net equation is balanced for electrons and atoms! e-

  50. Which electrode gains/loses weight? Look at half reactions!! Which one forms solid metal? Which one forms dissolved ions? Ox: Zn0 Zn+2 + 2e- Red: Cu+2 + 2e- Cu0 Zinc electrode loses mass Copper electrode gains mass

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