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Electrochemistry

Electrochemistry. Textbook Chapter 20 IB Topics 9 and 19. Oxidation Numbers. IB Topic 9.1.1- 9.1.4 Text p. 843-846 Oxford p. 54. 55. LEO . LEO says. GER!. GER!. LEO says. L oss of E lectrons = O xidation G ain of E lectrons = R eduction.

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Electrochemistry

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  1. Electrochemistry Textbook Chapter 20 IB Topics 9 and 19

  2. Oxidation Numbers • IB Topic 9.1.1- 9.1.4 • Text p. 843-846 • Oxford p. 54. 55

  3. LEO

  4. LEO says GER!

  5. GER! LEO says Loss of Electrons = Oxidation Gain of Electrons =Reduction

  6. Reduction Is Gain (of electrons) • Oxidation Is Loss (of electrons)

  7. Oxidation Numbers • Oxidation/Reduction (ReDox)-- Whenever a substance loses electrons and another substance gains electrons • Oxidation Numbers--system used to keep track of electron transfers

  8. Oxidation Numbers Rules

  9. Practice Assigning Oxidation Numbers

  10. Practice Assigning Oxidation Numbers

  11. Practice Assigning Oxidation Numbers

  12. Practice Assigning Oxidation Numbers

  13. Using Oxidation Numbers • Careful examination of the oxidation numbers of atoms in an equation allows us to determine what is oxidized and what is reduced in an oxidation-reduction (Redox) reaction

  14. An increase in the oxidation number indicates that an atom has lost electrons and therefore oxidized. A decreasein the oxidation number indicates that an atom has gained electrons and therefore reduced Example Zn + CuSO4 ZnSO4 + Cu 0 +2 +6-2 +2+6-2 0 Zn: 0+ 2Oxidized Cu: +20Reduced Using Oxidation Numbers

  15. Exercise For each of the following reactions find the element oxidized and the element reduced Cl2 + KBr  KCl + Br2 Cu + HNO3 Cu(NO3)2+ NO2 + H2O HNO3 + I2 HIO3 + NO2

  16. Exercise For each of the following reactions find the element oxidized and the element reduced Cl2 + KBr  KCl + Br2 0 +1-1 +1-10 Br increases from –1 to 0 -- oxidized Cl decreases from 0 to –1 -- Reduced K remains unchanged at +1

  17. Exercise For each of the following reactions find the element oxidized and the element reduced Cu + HNO3 Cu(NO3)2+ NO2 + H2O 0 +1+5-2 +2 +5-2 +4 –2 +1-2 • Cu increases from 0 to +2. It is oxidized • Only part of the N in nitric acid changes from +5 to +4. It is reduced • The nitrogen that ends up in copper nitrate remains unchanged

  18. Exercise For each of the following reactions find the element oxidized and the element reduced HNO3 + I2 HIO3 + NO2 1 +5 -2 0 +1+5-2+4-2 • N is reduced from +5 to +4. It is reduced • I is increased from 0 to +5 It is oxidized • The hydrogen and oxygen remain unchanged.

  19. Assignment • Oxidation Numbers/Naming Review packet

  20. Balancing Redox Reactions • IB Topics 9.2.1-9.2.4 • Text p. 846-850 • Oxford p. 55

  21. Balancing Redox Reactions • Many Redox rxns are complex and difficult to balance . • A systematic approach to balancing these reaction is required.

  22. MnO41- (aq) + C2O42- (aq)  Mn2+(aq) + CO2(aq) Balancing Redox Equations 1 • Divide the equation into 2 half reactions—one for oxidation, one for reduction. • Balance each half reaction • Balance elements other than H and O • Balance O by adding H2O as needed • Balance H by adding H+ as needed.(acidic solution) • Balance charge by adding e- as needed. • Multiply half reactions by integers so that the # of e- lost in one reaction = # of e- gained in the other reaction. • Add the two half reactions. Simplify by canceling species that appear on both sides of the arrow. • Check your work. Make sure that both the atoms and charges balance

  23. Cr2O72- (aq) + Cl1- (aq)  Cr 3+ (aq) + Cl2 (g) • Divide the equation into 2 half reactions—one for oxidation, one for reduction. • Balance each half reaction • Balance elements other than H and O • Balance O by adding H2O as needed • Balance H by adding H+ as needed. .(acidic solution) • Balance charge by adding e- as needed. • Multiply half reactions by integers so that the # of e- lost in one reaction = # of e- gained in the other reaction. • Add the two half reactions. Simplify by canceling species that appear on both sides of the arrow. • Check your work. Make sure that both the atoms and charges balance Balancing Redox Equations 2

  24. Divide the equation into 2 half reactions—one for oxidation, one for reduction. • Balance each half reaction • Balance elements other than H and O • Balance O by adding H2O as needed • Balance H by adding H+ as needed. .(acidic solution) • Balance charge by adding e- as needed. • Multiply half reactions by integers so that the # of e- lost in one reaction = # of e- gained in the other reaction. • Add the two half reactions. Simplify by canceling species that appear on both sides of the arrow. • Check your work. Make sure that both the atoms and charges balance Balancing Redox Equations 3 Cu (s) + NO31- (aq)  Cu 2+(aq) + NO2(aq)

  25. Divide the equation into 2 half reactions—one for oxidation, one for reduction. • Balance each half reaction • Balance elements other than H and O • Balance O by adding H2O as needed • Balance H by adding H+ as needed. .(acidic solution) • Balance charge by adding e- as needed. • Multiply half reactions by integers so that the # of e- lost in one reaction = # of e- gained in the other reaction. • Add the two half reactions. Simplify by canceling species that appear on both sides of the arrow. • Check your work. Make sure that both the atoms and charges balance Balancing Redox Equations 4 Mn2+ (aq) + NaBiO3 (s)  Bi 3+(aq) + MnO4 1- (aq) + Na1+(aq)

  26. Text p. 884 • Text p. 884 • Problems # 20a, b, c, d 22 a, b, c, d “acidic solution only”

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