1 / 19

Oxidation-Reduction

Oxidation-Reduction. Topic 9 Review Book. Oxidation Numbers. Oxidation is the loss of electrons; Reduction is the gain of electrons Oxidation and reduction go together. Whenever a substance loses electrons and another substance gains electrons

elaci
Download Presentation

Oxidation-Reduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Oxidation-Reduction Topic 9 Review Book

  2. Oxidation Numbers • Oxidation is the loss of electrons; Reduction is the gain of electrons • Oxidation and reduction go together. Whenever a substance loses electrons and another substance gains electrons • Oxidation Numbers are a system that we can use to keep track of electron transfers

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

  4. Rules for Assigning Oxidation Numbers • Free elements are 0 • Ions have the charge indicated • Metals : Group 1 = +1; Group 2= +2 • Hydrogen is +1 unless in binary compound with metal, then it is -1 • Halogens in binary compounds are usually -1, in ternary compounds move on and go back to do the algebra • Oxygen is -2 unless in peroxide when it is -1 or with fluorine when it is +2 • (FIMHHO)

  5. Practice Assigning Oxidation Numbers

  6. Practice Assigning Oxidation Numbers

  7. Practice Assigning Oxidation Numbers

  8. Practice Assigning Oxidation Numbers

  9. 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 reaction

  10. 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 Mg + ZnSO4 MgSO4 + Zn Using Oxidation Numbers

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

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

  13. Exercise For each of the following reactions find the element oxidized and the element reduced Mg + HNO3 Mg(NO3)2+ NO2 + H2O • 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

  14. Exercise For each of the following reactions find the element oxidized and the element reduced HNO3 + I2 HIO3 + NO2 • 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.

  15. Balancing Redox Reactions There are several basic steps • Assign oxidation numbers to the species in the reaction • Find the substance oxidized and the substance reduced • Write half reactions for the oxidation and reduction • Balance the atoms that change in the half reaction • Determine the electrons transferred and balance the electrons between the half reactions • Check your work. Make sure that both the atoms and charges balance

  16. Balancing Redox Equations 1 • Assign oxidation numbers to the species in the reaction • Find the substance oxidized and the substance reduced • Write half reactions for the oxidation and reduction • Balance the atoms that change in the half reaction • Determine the electrons transferred and balance the electrons between the half reactions • Check your work. Make sure that both the atoms and charges balance • *It may be helpful to balance the equation before starting the redox process • Zn + HCl  ZnCl2 + H2

  17. Balancing Redox Equations 2 • Assign oxidation numbers to the species in the reaction • Find the substance oxidized and the substance reduced • Write half reactions for the oxidation and reduction • Balance the atoms that change in the half reaction • Determine the electrons transferred and balance the electrons between the half reactions • Check your work. Make sure that both the atoms and charges balance MnO2 + HCl  MnCl2 + Cl2 + H2O

  18. Balance, Assign, ID, write ½ rxns for the following • 1. Mg + O2 MgO • 2. KClO3  KCl + O2 • 3. HCl + O2  H2O + Cl2

  19. Balance the following ionic equations • ____Cr +6 + ____ S  ___ Cr +3 +____ S +4 • ____Sn2+ + ____Hg+ 2  ___Sn+4 + ___Hg +1 • _____Cu + _____Ag+1  ___Cu+2 + ___Ag

More Related