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1 REDOX Challenge Contest REDOX Challenge Contest Florida State Jacksonville North Campus Presenters: Dr. Joseph Langat Dr. Kathleen Laurenzo.

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Presentation on theme: "1 REDOX Challenge Contest REDOX Challenge Contest Florida State Jacksonville North Campus Presenters: Dr. Joseph Langat Dr. Kathleen Laurenzo."— Presentation transcript:

1 1 REDOX Challenge Contest REDOX Challenge Contest Florida State College @ Jacksonville North Campus Presenters: Dr. Joseph Langat Dr. Kathleen Laurenzo Professor John Taylor

2 2 Abstract 2YC3 193 rd Conference Abstract:2YC3 193 rd Conference Abstract:. Web Site: The presenters conduct each term in all CHM 1025C (introductory), CHM 2045C (gen chem I), and CHM 2046C (gen chem II) chemistry courses the REDOX Challenge Contest at North Campus of Florida State College @ Jacksonville. This is a collaborative paper and pencil laboratory exercise, which in three hours transforms a novice into an advance student at balancing REDOX equations. The Student works in teams of two with an option to have an outside expert to join their team and participate to challenge and beat Professor Taylor at REDOX balancing. Conference participants will be given a CD with all the files used in the contest. Dr. Langat and Dr. Laurenzo act as roving experts to help struggling student teams. All three attempt to attend every lab session when there is not class conflict during ‘REDOX’ week in each particular course.. Web Site: http://www.fccj.us/REDOX/REDOXstudy.html http://www.fccj.us/REDOX/REDOXstudy.html http://www.fccj.us/REDOX/REDOXstudy.html

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5 5 If Not Ion Exchange then the reaction is REDOX?

6 6 Pot Luck Lunch or Dinner Faculty Provide two, three or four pizzas as main course! Faculty Provide two, three or four pizzas as main course! This gives a relaxed atmosphere and helps student bonding! Faculty Provide two, three or four pizzas as main course! Faculty Provide two, three or four pizzas as main course! This gives a relaxed atmosphere and helps student bonding!

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8 8 Three Divisions: The Novice Division: CHM 1020/CHM 1025C/CHM 1032C Students are beginners: 12 Rounds Mostly Net Ionic Equations At least four Acid Media Equations At least Four Basic media Equations Student Choice usually existing equations Pre/Post Lab Homework – 20 equations Rounds 1-8: five different equations distributed CHM 1020/CHM 1025C/CHM 1032C Students are beginners: 12 Rounds Mostly Net Ionic Equations At least four Acid Media Equations At least Four Basic media Equations Student Choice usually existing equations Pre/Post Lab Homework – 20 equations Rounds 1-8: five different equations distributed

9 9 Three Divisions: The Intermediate Division: CHM 2045C Students Students have REDOX each semester: 12 Rounds 12 Rounds Both Ionic and Molecular Equations Both Ionic and Molecular Equations At least four Acid Media Equations At least four Acid Media Equations At least Four Basic media Equations At least Four Basic media Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations CHM 2045C Students Students have REDOX each semester: 12 Rounds 12 Rounds Both Ionic and Molecular Equations Both Ionic and Molecular Equations At least four Acid Media Equations At least four Acid Media Equations At least Four Basic media Equations At least Four Basic media Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations

10 10 Three Divisions: The Advanced Division: CHM 2046C Students /Chemistry Faculty Students have REDOX each semester: 10 Rounds- The Championship 10 Rounds- The Championship All Molecular Equations All Molecular Equations At least two Acid/Basic/Neutral Media Equations At least two Acid/Basic/Neutral Media Equations Mother/Father*/Son/Daughter Equations Mother/Father*/Son/Daughter Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations *or the Mother-in-law Equation *or the Mother-in-law Equation CHM 2046C Students /Chemistry Faculty Students have REDOX each semester: 10 Rounds- The Championship 10 Rounds- The Championship All Molecular Equations All Molecular Equations At least two Acid/Basic/Neutral Media Equations At least two Acid/Basic/Neutral Media Equations Mother/Father*/Son/Daughter Equations Mother/Father*/Son/Daughter Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations *or the Mother-in-law Equation *or the Mother-in-law Equation

11 11 Three Divisions: The Advanced Division: CHM 2045C Students Students have REDOX each semester: 12 Rounds 12 Rounds Mostly Molecular Equations Mostly Molecular Equations At least four Acid Media Equations At least four Acid Media Equations At least Four Basic media Equations At least Four Basic media Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations CHM 2045C Students Students have REDOX each semester: 12 Rounds 12 Rounds Mostly Molecular Equations Mostly Molecular Equations At least four Acid Media Equations At least four Acid Media Equations At least Four Basic media Equations At least Four Basic media Equations Student Choice optional on Odd rounds Student Choice optional on Odd rounds Pre/Post Lab Homework – 20 equations Pre/Post Lab Homework – 20 equations

12 12 REDOX Balancing Methods Emphasize Ion Electron Method (also know as Help Equation Method or half Equation Method) (The Dr. Cahill Story from 1966) Beginners are taught only the Ion Electron! Advanced are taught both Ion-Electron And Electron Transfer (or the Oxidation State Method)

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15 15 Balancing a Redox Equation by the Half-Reaction Method 1. Write the unbalanced net ionic equation if this is not already done for you. Refer to the solubility rules to determine which species will ionize and which remain molecular. 2. Separate the net ionic equation into two unbalanced half reactions. 3. Balance each half-reaction for all atoms other than Oxygen and/or Hydrogen. 4. Balance each half-reaction for O by adding H 2 O to the side with fewer O until they are in balance.

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17 17 Balancing a Redox Equation by the Half-Reaction Method 5. Balance each half-reaction for H by adding H + to the side with less H until they are in balance. 6. Balance each half-reaction for charge by adding electrons to the side with greater positive charge (or less negative charge) until charges are in balance. 7. Multiply one or both half-reactions by suitable coefficients to make the electron count the same in both half-reactions (electrons lost = electrons gained).

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19 19 Balancing a Redox Equation by the Half-Reaction Method 8. Add the two balanced half-reactions together. Cancel electrons (make sure they are the same number) and any other species that appear on both sides of the equation. 9. Check to make sure the equation is balanced for atoms and charges on either side. 9 ½. If balancing in base, add enough OH - to each side to convert any H + on one side to H 2 O and leave that number of OH - on the other side. Recheck the water balance as this process creates water.

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21 21 Balancing a Redox Equation by the Half-Reaction Method 10. Rewrite the equation and check atom and charge balance. This is the acid test: if they are balanced you have done it correctly! 11. If the equation was originally a total molecular equation, substitute the net balanced ionic equation into the molecular equation and balance the spectator ions by inspection.

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24 24 Tips on Balancing Equations Never add O 2, O atoms, or O 2- to balance oxygen.Never add O 2, O atoms, or O 2- to balance oxygen. Never add H 2 or H atoms to balance hydrogen.Never add H 2 or H atoms to balance hydrogen. Be sure to write the correct charges on all the ions.Be sure to write the correct charges on all the ions. Check your work at the end to make sure mass and charge are balanced.Check your work at the end to make sure mass and charge are balanced. PRACTICE!PRACTICE!

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26 26 The daughter is a Warm up!

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30 30 Ultimate Challenge: The Mother

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33 33 Contacts: Joseph Langat: jlangat@fscj.edujlangat@fscj.edu Kathleen Laurenzo: klaurenz@fscj.eduklaurenz@fscj.edu John Taylor johtaylor@fscj.edujohtaylor@fscj.edu

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