Chemistry Discussion #8, Chapter 16 Student name TA name Section

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Chemistry 102 2016 Discussion #8, Chapter 16 Student name TA name Section Things you should know when you leave Discussion today: 1. Reduction potential E red at standard conditions 2. Cell potential E =[J/c=J/charge] is a measure of electrical potential difference. E cell = E red (cathode) - E red (anode) ch arg e 3. Gibbs Free Energy and Potential : ΔG = -n e F E ; F = 96485.3 ( ) mol( electrons ) 4. Oxidation Reduction Reactions i. Oxidation is loss of electrons (acts as a reducing agent) ii. Reduction is gain of electrons (acts as a oxidizing agent) 5. Assigning Oxidation numbers i. Oxidation number is 0 for atoms in an element. ii. The sum of all oxidation numbers in a molecule or ion must add up to the total charge. iii. In compounds, alkalis (group 1) have oxidation number +1; alkaline earths (group 2) have oxidation number +2. iv. In compounds, fluorine (F) always has oxidation number -1. Other halogens (Cl ext.) have oxidation number -1, except when bonded to elements that are more electronegative such as fluorine or oxygen, where they can have positive oxidation numbers. v. In compounds, hydrogen has oxidation number +1 (when bonded to elements with higher electronegativity). When bonded to metals hydrogen has oxidation number -1 (when bonded to elements with lower elecronegativity). vi. In compounds, oxygen has oxidation number -2, except when bonded to fluorine, where fluorine's rule takes precedence (in OF 2 oxygen has oxidation number +2), and if there are O-O (peroxide) bonds. (in H 2 O 2 or Na 2 O 2 oxygen has oxidation number -1). 6. Steps for Balancing Redox reactions in Acidic or Basic media (always start with acidic). Step 1 Write the two half reactions. Step 2. Balance all the elements except for O and H. Step 3. Balance O by adding H 2 O. Step 4. Balance H by adding H +. Step 5. Balance charge by adding electrons to the side of the half reaction that is most positive. Step 6. Balance electrons lost in one half reactions with electrons gained in the other half reaction. Step 7. Add half reactions together canceling what can be canceled. Step 8. Determine if your answer should be in acidic media or basic media If in acidic media: Add water to both sides in order to convert all H + to H 3 O + a) Combine H + and H 2 O to form H 3 O + b) Simplify the reaction by canceling the H 2 O that appear on both sides If in basic media: Add enough OH - to neutralize H + to both sides of the reaction. a) Combine OH - and H + to form H 2 O. b) Simplify the reaction by canceling the H 2 O that appear on both sides 1

1. Write the balanced equation for the reduction of Fe 2+ (aq) to Fe (s) using H 2 (g). Assign for each half reaction if it is a cathode half reaction or an anode half reaction. ( E o red (Fe 2+ / Fe)=-0.44) Draw the galvanic cell corresponding to the redox reaction E o cell = 2. Write the balanced equation for the oxidation of NO (g) to NO 3 - (aq) by reduction of dichromate, Cr 2 O 7 2- (aq) to Cr 3+ (aq). Assign for each half reaction if it is a cathode half reaction or an anode half reaction. 2

3. Balance the following reaction: MnO 4 - (aq) + C 2 O 4 2- (aq) MnO 2 (aq) + CO 2 (g). Assign for each half reaction if it is a cathode half reaction or an anode half reaction. Net RXN in Basic Media: 4. Balance the following reaction: IO - 3(aq) + I - (aq) I 2 (aq). Assign for each half reaction if it is a cathode half reaction or an anode half reaction. Net RXN in Basic Media: 3

5. When zinc is burned in air, ZnO (s) is formed. Write the balanced reactions. Net RXN: 6. Choose all that must be true about cell potential E : a. Anode is an electrode where oxidation takes place b. Cathode is an electrode where reduction takes place c. Most positive reduction potential represents the strongest Oxidizing Agent (an oxidizing agent is an electron acceptor and is most likely to get reduced) d. Most negative reduction potential represents strongest Reducing Agent (most likely to get oxidized) e. E is an Intensive quantity as long as concentration does not change it does not depend on the size of the cell f. E does not depend on the amount of charge transferred. g. E does not depend on stoichiometry. (doubling the stoichiometry of all the species in the reaction has no effect on the E ) h. Sign of the cell potential tells the direction of electron flow. 4

7. Answer the questions for the following redox reaction: Cu(s) Cu 2+ (aq) Ag + (aq) Ag(s) E o red(cu 2+ Cu) = 0.34V E o red(ag + Ag) = 0.80 V a. Cathode RXN: b. Anode RXN: c. Net RXN: d. E o cell = 8. Write the balanced net reaction for aluminum solid reacting with lead (II) to yield lead solid and aluminum ion. a. Give the line notation for the corresponding electrochemical cell. b.given Eº red (Pb 2+ / Pb)= 0.13 V and Eº red (Al 3+ / Al ) = -1.66 V, calculate the standard cell potential. 9. Answer the questions below using the list of standard reduction potentials. E red (V) E red (V) Pb 4+ /Pb 2+ +1.67 In + /In 0.14 Ce 3+ /Ce +1.61 V 3+ /V 2+ 0.26 Mn 3+ /Mn 2+ +1.51 Cr 3+ /Cr 2+ 0.41 O 3 /O 2 +1.24 Fe 2+ /Fe 0.44 Br 2 /Br +1.09 Zn 2+ /Zn 0.76 Ag + /Ag +0.80 Al 3+ /Al 1.66 a. Which one is the best oxidizing agent? b. Which one is the best reducing agent? c. Circle the species that will reduce Br 2 but not V 3+? In + Al Ag Ce d. Circle the species that will oxidize Cr 2+ but not Mn 2+? Pb 4+ Zn 2+ Fe 2+ O 3 5

10. For each of the reactions below, circle all those that will have positive voltages. Assume all molecules are in their standard state concentrations unless otherwise given. The table below has standard reduction potentials and may be useful. Half-Reaction Eº red (volts) a) Fe 3+ is able to oxidize Ag. Ag + / Ag Fe 3+ / Fe 2+ 0.80 0.77 b) Ag + is able to oxidize Fe 2+. Fe 2+ / Fe -0.44 c) Fe 2+ is able to oxidize Ag. d) Write the line notation for the cell with most positive standard cell potential: 11. You have an electrochemical cell that takes place in one common acidic solution of lead sulfate. Coming out of solution is a lead electrode and a platinum electrode. Anode RXN: 2H + (aq) +2e- H 2 (g) E red = 0 V PbSO 4 +2e- Pb(s) + SO 4 2- (aq) E red = -0.360 V Pt(s) H 2 (g) H + (aq) SO 4 2 (aq) PbSO 4 (s), Pb(s) Cathode RXN: NET RXN: E o cell = 12. Write down the balanced oxidation half-reaction for the complete combustion of glucose, C 6 H 12 O 6, in aqueous acidic solution. 13. Balance the redox reaction of H 2 (g) reducing Au 3+ (aq) to produce solid gold in an acidic solution. 14. Balance the following reaction in basic media: Fe 2+ (aq) + MnO 4 - (aq) Fe 3+ (aq) + Mn 2+ (aq) 15. Use the steps provided to balance following oxidation reduction reactions in acidic and basic media. a. Cu(s) + NO 3 - (aq) Cu 2+ (aq) + NO 2 (g) b. S 2- (aq) + I 2 (aq) SO 2-4 (aq) + I - (aq) 6

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