Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download - Catalyst
Document related concepts
Transcript
CHEM 321 Quantitative Analysis Homework 4 Solutions 1. An electrochemical cell is assembled from two solutions placed in separate beakers and buffered to pH 7. One beaker contains amino acids cysteine (0.005 M) and cystine (0.005 M), the other NAD+ and NADH. The solutions are connected by a salt bridge and furnished with platinum electrodes. The corresponding half-reactions and formal potentials are as follows: Cystine + 2H3O+ + 2e¯ → 2 Cysteine + 2H2O NAD+ + H3O+ + 2e¯ → NADH + H2O E°' = –0.340 V E°' = –0.320 V At what [NAD+]/[NADH] ratio will you measure zero current when shorting the electrodes? Ecys = –0.340 – (0.0592/2)log [Cred]2/[Cox] ENAD = –0.320 – (0.0592/2)log [NADH]/[NAD] [NADH]/[NAD] = x i = 0 when Ecys = ENAD: –0.340 – (0.0592/2)log (0.0052/0.005) = –0.320 – (0.0592/2)log x x = 0.0237, [NAD+]/[NADH] = 1/0.0237 = 42.20 2. Using standard potentials from the textbook, calculate the voltage of each of the following electrochemical cells: Fe(s)/FeBr2(0.010 M)//NaBr (0.050 M)/Br2(l)/Pt Cell Voltage = E(cathode) - E(anode) E(anode, Fe/Fe2+) = -0.440+(0.05916/2)*log(0.01) = -0.49916 V E(cathode, Br2, Br-) = 1.065-(0.05916/2)*log(0.05)2 = 1.142 V E(cell) = 1.142-(-0.49916) = 1.641 V Cu(s)/Cu(NO3)2(0.020 M)//Fe(NO3)2 (0.050 M)/Fe(s) Solve as the previous one using standard potentials from the textbook (pp. 808-809) Hg(l)/Hg2Cl2(s)/KCl(0.060 M)//KCl(0.040 M)/AgCl(s)/Ag(s) E(anode) = 0.789 + (0.05916/2) log Ksp - 005916 log[Cl-] = 0.789 + (-0.529) - (-0.0723) = 0.332 V E(cathode) = 0.799 + 0.05916 log(Ksp) - 0.05916 log]Cl-] = 0.799 + (-0.5916) - (-0.0827) = 0.290 V E(cell) = 0.290 - 0.332 = -0.042 V 3. The nitrate content in rubble collected at a bomb attack site is determined using a nitrate ionselective electrode. A rubble sample was washed with water to obtain a solution and both it and the nitrate standards were diluted 20-fold with 0.1 M potassium sulfate before potential measurements to maintain constant ionic strength. Nitrate standards at 0.0050 M and 0.0100 M were used, diluted, and gave voltage readings of –0.3496 V and –0.3662 V against S.C.E. (ESCE = +0.241 V). The sample read –0.3606 against S.C.E. What was the nitrate concentration in mg/L in the original sample solution before dilution.? First calculate the slope: –0.3496 = k – S log(0.005) –0.3662 = k – S log(0.010) S = 0.05514 Note that the dilutions do not have to be considered because they were the same for the sample and internal standards. The 1/20 factor in all concentrations is accommodated in the constant k which we do not have to calculate because it cancels out when subtracting the equations. Sample: –0.3606 = k – 0.05514 log x –0.3496 = k – 0.05514 log(0.005) x = 0.0007915 M (to be converted to mg/L in the original wash solution)
