Potassium ion charge would be +1, so oxidation number is +1. Chloride ion charge would be 1, so each chlorine has an ox # of -1

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1 Chapter Assign oxidation numbers to each atom in: Ni Nickel ion charge would be +2, so oxidation number is +2 Chloride ion charge would be 1, so each chlorine has an ox # of -1 Mg 2 Ti 4 Magnesium ion charge would be +2, so oxidation number is +2 xygen ox # (from the rules) is -2 Titanium ox # of +4, so that the whole thing adds up to zero charge K 2 Cr 2 7 xygen ox # (from the rules) is -2 Potassium ion charge would be +1, so oxidation number is +1 Chromium ox # of +6, so that the whole thing adds up to zero charge HP 4 - xygen ox # (from the rules) is -2 Hydrogen ox # (from the rules) is +1 Phosphorus ox # of +6, so that the whole thing adds up to 1 charge 2. Identify whether each reaction is a redox reaction. If so, identify the oxidizing agent, the reducing agent, the substance being oxidized, and the substance being reduced. a. Zn (s) + 2HCl (aq) Zn (aq) + H 2 (g) Reactant ox # Zn is 0, H is +1, Cl is -1 Product ox # Zn is +2, H is 0, Cl is 1 Since there is a change in ox #, this is a redox reaction. Since Zn s ox # inceased, it was oxidized and is the reducing agent. Since hydrogen s ox # decreased, it was reduced and is the oxidizing agent 2-2- b. Cr 2 7 (aq) + 2H- (aq) Cr4 (aq) + H2 (l) Reactant ox # Cr is +6, is -2, H is +1 Product ox # Cr is +6, is -2, H is +1 Since there is no change in ox #s, this is not a redox reaction 3. Identify the substances oxidized and reduced in the reaction of calcium and chlorine to form calcium chloride. What are the oxidizing and reducing agents? Balanced equation: Ca + Ca Reactant ox # Ca is 0, Cl is 0 Product ox # Ca is +2, Cl is 1 So oxidizing agent is Cl (which is reduced) and the reducing agent is Ca (which is oxidizied)

2 Chapter Balance the following equations: 2- H (aq) 7 (aq) CH2 (aq) + Cr 3+ (aq) in acidic solution Write half reactions: 2-3+ H CH 2 Cr 2 7 Cr Balance (not H or ) 2-3+ H CH 2 Cr 2 7 2Cr Balance using H H CH 2 Cr 2 7 2Cr + 7 H2 Balance H using H+ H CH 2 + 2H + 14 H Cr + 7 H2 Balance charge using e- H CH 2 + 2H + + 2e- 14 H e- 2Cr + 7 H2 Make e- the same 3 H 3CH 2 + 6H + + 6e- 14 H e- 2Cr + 7 H2 Add and cancel 3 H + 8 H CH2 + 2Cr H 2 (g) Cl - (aq) + Cl - (aq) in basic solution Write half reactions: Cl - Cl - Balance (not H or ) 2Cl - 2Cl - Balance using H 2 2Cl - 2Cl - Balance H using H+ 2Cl - 2Cl - + 4H + Balance charge using e- + 2e- 2Cl - 2Cl - + 4H + + 2e- Make e- the same They are Add and cancel 2 2Cl - + 2Cl - + 4H + Add 4 H- to each side 4 H Cl - + 2Cl - + 4H H- Make H 2 from H + and H- 4 H Cl - + 2Cl - + 4H 2 Cancel H 2 4 H Cl - + 2Cl - Reduce coefficients 2 H- + Cl - + Cl - + H 2

3 Chapter G iven the following cell notation: Cr (s) Cr 3+ (aq) Cu 2+ (aq) Cu (s) Write a balanced equation for the cell reaction and give a brief description of the cell. The anode is first: Cr (s) Cr 3+ (aq) + 3e- The cathode is second: Cu 2+ (aq) + 2e- Cu (s) Make the number of electrons the same and add the reactions to get: 2Cr (s) 2Cr 3+ (aq) + 6e- 3Cu 2+ (aq) + 6e- 3Cu (s) 2Cr (s) + 3Cu 2+ (aq) 2Cr 3+ (aq) + 3Cu (s) The cell is a chromium anode dipped into a solution of Cr 3+ ions and a copper cathode dipped into a solution of Cu 2+ ions. The two solutions are connected by a salt bridge. 2. W rite the shorthand notation for a galvanic cell that uses the reaction: Mg (s) + Fe 2+ (aq) Mg 2+ (aq) + Fe (s) Splitting into half reactions: Mg (s) Mg 2+ (aq) + 2e- Fe 2+ (aq) + 2e- Fe (s) So Mg is oxidized (this is the anode) and the Fe is reduced (this is the cathode). Mg (s) Mg 2+ (aq) Fe 2+ (aq) Fe (s)

4 Chapter A galvanic cell consists of a Mg electrode in a 1.0 M Mg(N 3 ) 2 solution and a Ag electrode in a 1.0 M AgN 3 solution. Calculate the E for this cell. The reduction potentials are: E (Mg 2+ /Mg) = V E (Ag + /Ag) = 0.80 V Silver has the more positive reduction potential, so it will be reduced. So = E Ag+/Ag - E Mg2+/Mg = 0.80 (-2.37) = 3.17 V 2. Determine whether the following reactions are spontaneous as written: a. 2Al I - 3I 2 + 2Al Al is reduced, I- is oxidized. So = E Al3+/Al - E I2/I- = (-1.66) (+0.54) = V Since E is negative the reaction is NT spontaneous b. 3Fe N + 4H 2 3Fe + 2N H + Fe 2+ is reduced, N is oxidized. So = E Fe2+/Fe - E N3-/N = (-0.45) (+0.96) = V Since E is negative the reaction is NT spontaneous c. 3Ca + 2Cr 3+ 2Cr + 3Ca 2+ Cr 3+ is reduced, Ca is oxidized. So = E Cr3+/Cr - E Ca2+/Ca = (-0.74) (-2.87) = V Since E is positive the reaction is spontaneous

5 Chapter A current of A is passed through an electrolytic cell containing molten Ca for 1.5 hours. Write the electrode reactions and calculate the quantity of products (in grams) formed at the electrode. Cathode: Ca 2+ (l) + 2e- Ca (l) Anode: 2Cl- (l) (g) + 2e hours x (60 min/hr) x (60 sec/min) = 5.40 x 10 3 seconds Charge = current x time Charge = A x (5.40 x 10 3 seconds) = 2.44 x 10 3 As = 2.44 x 10 3 C (2.44 x 10 3 C) x (1 mole e- / C) = mole e- Using the half reactions: Cathode: mole e- x (1 mole Ca/2 mole e-) x (40.08 g/mol) = g Ca Anode: mole e- x (1 mole /2 mole e-) x ( g/mol) = g 2. A constant current is passed through an electrolytic cell containing molten Mg for 18 hours. If 4.8 x 10 5 grams of are obtained, what was the current (in amperes)? Anode: 2Cl- (l) (g) + 2e- 4.8 x 10 5 grams x (1 mole / g) x (2 mole e-/1 mole ) x (96485 C/mol e-) = 1.31 x 10 9 C = 1.31 x 10 9 As 18 hrs x (3600 sec/hr) = 6.48 x 10 4 sec 1.31 x 10 9 As / 6.48 x 10 4 sec = 2.02 x 10 4 A 3. How many hours are required to produce 1000 kg of sodium by electrolysis of molten NaCl with a constant current of 30,000 A? How many liters of at STP will be obtained as a byproduct? Cathode: Na + (l) + e- Na (l) Anode: 2Cl- (l) (g) + 2e kg Na x (1000 g / 1 kg) x (1 mol Na/22.99 g) x (1 mol e-/1 mole Na) = x 10 4 mole e x 10 4 mole e- x (96485 C / 1 mole e-) = x 10 9 C = x 10 9 As x 10 9 As / 30,000 A = x 10 5 sec = hrs x 10 5 mole e- x (1 mol / 2 mole e-) = x 10 4 mole PV = nrt STP: 1 atm and 273 K V = (2.175 x 10 4 mole) ( L atm/mol K) (273 K) / 1 atm = x 10 5 L

6 Chapter Calculate the standard free energy change and Kc for the following reaction at 25 C. Sn (s) + 2Cu 2+ (aq) Sn 2+ (aq) + 2Cu + (aq) Half reactions: xidation: Sn Sn e- Reduction: 2Cu e- 2Cu + So = E Cu2+/Cu+ - E Sn2+/Sn = (0.16) (-0.14) = V G = -nfe G = -(2 mole e-) (96485 C/mole e-) (0.29 V) G = - 58 kj (recall that C = J/V) = (RT/nF) (ln K) ln K = / V = (2) (0.29 V) / V = 22.6 n K = 6.4 x 10 9 Note V is the result of RT/F for 25 C 2. Predict whether the following reaction would proceed spontaneously as written at 298 K: Co (s) + Fe 2+ (aq) Co 2+ (aq) + Fe (s) Given that [Co 2+ ] = 0.15 M and [Fe 2+ ] = 0.68 M The half reactions: xidation: Co Co e- Reduction: Fe e- Fe = - = (-0.45) (-0.28) = V E Fe2+/Fe E Co2+/Co E = ( V / n) ln Q From the overall reaction (recalling that pure solids do not appear in Q expression) Q = [Co 2+ ] / [Fe 2+ ] = 0.15 / 0.68 = 0.22 E = (-0.17) ( V / 2) (ln 0.22) = V Since E is negative, the reaction is NT spontaneous in the direction written 3. A galvanic cell was set up using the following reaction: Mg (s) + Cd 2+ (aq) Mg 2+ (aq) + Cd (s) The magnesium electrode was dipped into a 1.0 M solution of MgS 4 and the cadmium electrode was dipped into a solution of unknown Cd 2+ concentration. The potential of this cell was measured to be 1.54 V. What is the Cd 2+ concentration? The half reactions: xidation: Mg Mg e- Reduction: Cd e- Cd = - = (-0.40) (-2.37) = V E Cd2+/Cd E Mg2+/Mg E = ( V / n) ln Q From the overall reaction (recalling that pure solids do not appear in Q expression) Q = [Mg 2+ ] / [Cd 2+ ] = 1.0 / [Cd 2+ ]

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