Chemistry 222 Exam 4: Chapters 11, 13, 14 Spring Points

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1 Chemistry 222 Name Exam 4: Chapters 11, 13, 14 Spring Points Complete five (5) of the following problems. Each problem is worth 16 points. CLEARLY mark the problems you do not want graded. You must show your work to receive credit for problems requiring math. Report your answers with the appropriate number of significant figures. 1. Calculate the pag + at any two of the following points in the titration of ml of M Ag + with M EDTA at ph Select from ml, ml, ml titrant added. For the AgY 3- complex, log K f = 7.32 Because the concentration of Ag + and EDTA are the same, it should take ml to get to the equivalence point. At any point after the start of the titration, we should consider the following equilibrium: Ag + + Y 4- = AgY 3- K f = = 2.09 x ml (before equivalence point): Prior to the equivalence point, therefore some unreacted Ag + will remain. Because of this, and because K f is so large, dissociation of AgY 3- will be negligible ml mol Y 4- x mol mol Y 4- x 1 mol Ag + = mmol Ag + consumed L 1 mol Y 4- [Ag + ] = ( ) mmol Ag + = 2.05 x 10-4 M pag + = ml 50 ml (at equivalence point) At the equivalence point, all silver ion has reacted, so we need to account for the dissociation of the complex. [AgY 3- ] = ( M)(50 ml) = 5.00 x 10-4 M 100 ml Ag + + EDTA = AgY 3- K f = Y4- K f = 0.85 K f = [AgY 3- ] I x 10-4 [Ag + ][EDTA] C +x +x -x 1.78 x 10 7 = 5.00 x x E x x 5.00 x x x 2 Solving for x, we find that x = [Ag + ] = 5.27 x 10-6 M, pag + = ml (after equivalence point) After the equivalence point, we also have account for the influence of excess EDTA on the dissociation of the complex. [AgY 3- ] = ( M)(50 ml) = 4.76 x 10-4 M 105 ml [EDTA] = ( M)(5 ml excess) = 4.76 x 10-5 M 105 ml Ag + + EDTA = AgY 3- K f = Y4- K f = 0.85 K f = [AgY 3- ] I x x 10-4 [Ag + ][EDTA] C +x +x -x 1.78 x 10 7 = 4.76 x x E x 4.76 x x 4.76 x x (4.76 x x)(x) Solving for x, we find that x = [Ag + ] = 5.54 x 10-7 M, pag + =

2 2. A 50.0 ml sample containing Cd 2+ and Mn 2+ was treated with 56.5 ml of M EDTA. Titration of the excess unreacted EDTA required 10.0 ml of M Ca 2+. The Cd 2+ was displaced from EDTA by the addition of an excess of CN. Titration of the newly freed EDTA required 26.0 ml of M Ca 2+. What were the molarities of Cd 2+ and Mn 2+ in the original solution? Since the stoichiometry between EDTA and any metal ion is 1:1, the mmol of Cd 2+ and Mn 2+ in the mixture equals the total mmol of EDTA minus the number of mmol of EDTA consumed in the back titration with Ca 2+ : Total EDTA = (56.5 ml EDTA)( M EDTA) = 3.39 mmol EDTA Consumed EDTA = 3.39 mmol (10.0 ml Ca 2+ )( M Ca 2+ ) = 3.22 mmol EDTA So, the total moles of Cd 2+ and Mn 2+ must be 3.22 mmol. The quantity of cadmium must be the same as the quantity of EDTA freed after the reaction with cyanide: Moles Cd 2+ = (26.0 ml Ca 2+ )( M Ca 2+ ) = mmol Cd 2+. The remaining moles must be Mn 2+ : = mmoles Mn 2+ The initial concentrations must have been: (0.442 mmol Cd 2+ )/(50.0 ml) = M Cd 2+ ( mmol Mn 2+ )/(50.0 ml) = M Mn 2+ 2

3 3. Outline an experiment for the determination of Ca 2+ using a calcium ion-selective electrode. If the suspected [Ca 2+ ] is ~ M, describe (qualitatively) how you would prepare a calibration curve given a standard solution of Ca 2+ (~ 1.0 M)? Assume you have a wellstocked laboratory and a collection of salts, acids, and bases to work with. Sketch (qualitatively) how the calibration curve should appear. Include an estimate of the slope you would expect. Here are several key points: 1. Prepare standards of concentrations surrounding M, such as 0.01 M to M. Use an inert salt to maintain constant ionic strength. 2. Measure E cell using the calcium ISE and a suitable reference electrode. 3. Plot log[ca 2+ ] versus E cell. 4. Slope of calibration plot should be ~ V/2 or ~0.030 V and positive. 5. Measure E cell for the unknown and calculate an unknown concentration from your calibration curve. 3

4 4. At 25 C, you conduct a titration of ml of a M AgNO 3 solution with a M NaI solution within the following electrochemical cell: Saturated Calomel Electrode Titration Solution Ag (s) For the cell as written, what is the voltage after the addition of ml of NaI solution? The reduction potential for the saturated calomel electrode is E = V. The standard reduction potential for the reaction Ag + + e - Ag(s) is E 0 = V. The solubility constant of AgI is Ksp = For our electrochemical cell: E cell = E Ag/Ag+ - E SCE E SCE = V E Ag/Ag+ is described by the Nernst equation: E Ag/Ag+ = V V log 1 1 [Ag + ] Combining the two: E cell = V V log 1 - ( V) 1 [Ag + ] So, we need [Ag + ] after the addition of the NaI solution to finish our calculation. The titration reaction is Ag + + I - AgI(s) The equivalence point occurs at: ml Ag + x mol Ag + x 1 mol I - x 1 L = ml L 1 mol Ag mol I - Our given volume is after the equivalence point, therefore, prior to returning to equilibrium, all of the Ag + has been converted to AgI(s) and some excess I - remains. What is the I - concentration? We have = 5.23 ml excess I - solution, therefore the concentration must be: (5.23 ml)( M I - ) = M I - ( ) ml From the K sp expression: K sp = [Ag + ][I - ] [Ag + ] = K sp /[I - ] = / = 3.99x10-14 Inserting this into our expression above: E cell = V V log 1 - ( V) x10-14 E cell = V ( V) ( V) = V 4

5 5. Consider the electrochemical cell below: Pt Ce 4+ (0.100 M), Ce 3+ ( M) MnO - 4 (0.100 M), Mn 2+ ( M), HClO 4 (?? M) Pt Reaction (all species are aqueous unless noted) E o (volts) Ce 4+ + e - = Ce Ce e - = Ce(s) MnO H + + 5e - = Mn H 2 O MnO H + + 3e - = MnO 2 (s) + 2H 2 O MnO 2 (s) + 4H + + 2e - = Mn H 2 O a. Write the cell reaction described by this notation (in the appropriate direction). (5 points) Cathode: MnO H + + 5e - = Mn H 2 O Anode: Ce 4+ + e - = Ce 3+ Net: MnO H + + 5Ce 3+ = 5 Ce 4+ + Mn H 2 O E o = V E o = V E o = E o cathode E o anode = V b. A voltmeter is used to measure the potential of this cell, using standard convention for assigning the anode and cathode. If E cell is measured to be V, what is the ph of the manganese solution? (8 points) E = E o V log [Ce 4+ ] 5 [Mn 2+ ] n [Ce 3+ ] 5 [MnO - 4 ][H + ] = V V log [0.100] 5 [ ] 5 [0.0100] 5 [0.100][H + ] = log [0.100] 5 [ ] [0.0100] 5 [0.100][H + ] 8 [H + ] 8 = [0.100] 5 [ ] = x10-16 [0.0100] 5 [0.100](4.766 x ) [H + ] = (2.0981x10-16 ) 1/8 = M, ph = 1.96 c. Is the reaction spontaneous under standard conditions in the direction written in part a? How do you know? (3 points) Since E o is negative under standard conditions, the reaction is not spontaneous in the direction written. 5

6 6. Consider the electrochemical cell below: Pt(s) Br 2 (l) HBr (aq, M) Al(NO 3 ) 3 (aq, M) Al(s) Reaction (all species are aqueous unless noted) E o (volts) Br 2 (aq) + 2e - = 2Br Br 2 (l) + 2e - = 2Br NO H + + 3e- = NO (g) + 2H 2 O AgCl + e - = Ag(s) + Cl (sat d KCl) 2H + + 2e - = H 2 (g) Al e - = Al(s) a. Calculate E cell for the conditions given. (8 points) Cathode: Al e - = Al(s) E o = V Anode: Br 2 (l) + 2e - = 2Br - E o = V Cell Rxn: 6Br - + 2Al 3+ = 2Al + 3Br 2 E o = V V = V Nernst equation for each half cell: E anode = V V log[br - ] 2 = V Vlog[0.0100] 2 = V 2 2 E cathode = V Vlog 1 = V Vlog 1 = V 3 [Al 3+ ] 3 [0.100] E cell = E cathode - E anode = ( )V = V If you choose to write a Nernst equation for the overall cell reaction: E cell = V V log 1 = V Vlog 1 = V 6 [Br - ] 6 [Al 3+ ] 2 6 [0.0100] 6 [0.100] 2 b. Is the reaction spontaneous in the direction written in part a? How do you know? (2 points) Since the cell potential is negative, the reaction is not spontaneous. c. Calculate the standard free energy change ( G o ) and the free energy change ( G) for the conditions given. (3 points) G o = -nfe o = -(6 mol e - )(96485 C/mole)( V) = +1,595,000 J = +1,595 kj G = -nfe = -(6 mol e - )(96485 C/mole)( V) = +1,675,000 J = +1,675 kj d. Is the reaction more favorable under standard conditions, or with the conditions given? How do you know? (3 points) Since E is less negative and G less positive, the reaction is more favorable under standard conditions. 6

7 Possibly Useful Information K w = 1.0 x = [H + ][OH - ] 2.303RT V E E o logq E o logq nf n b 2 b 4ac x 2a G o = -nfe o = -RTlnK F = C mol -1 R = Jmol -1 K V E const. log ion n y = mx + b, y m x Values of y4- for EDTA at 20 C and = 0.10 M ph y4- ph y4- ph y x x x x x x x x x x

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