QUESTION 9 If a chemical reaction has a measured potential versus Ag/AgCl to be 0.325 V,...
The potential of a silver electrode is measured relative to an Ag-AgCl electrode for the titration of 100.0 mL of 0.100 M Cl- with 0.100 M Ag+. What is the potential after 75.00 mL of titrant is added. Eo = 0.799 V for Ag+, E = 0.197 V for the Ag-AgCl electrode and Ksp = 1.8 × 10−10. A) 0.493 V B) 1.070 V C) 0.521 V D) 1.267 V E) 0.134 V Answer is E, can someone show me...
draw a diagram like figure 15-6 to convert the following potentials. The Ag|AgCl and calomel reference elctrodes are saturated with KCl rcactions for the silver-silver chloride and exacly the vanue 15-1. (a) Write ts lomel val sse for the following cell. E for the calomel e (b) Predict the Predict t Indicator Electroe 15-6. A cell was calomel electrod attached to the electrode was a (a) Write a hal (b) Write the (c) Calculate Saturated silver-silver Saturated calomel chloride electrode...
i answered 0.58 but I got it wrong. can you help/solve? Question: A chemist measures the potential of an electrochemical cell vs. the saturated calomel electrode to be +0.5V. Then, the chemist switches the reference electrode to the silver-silver chloride electrode. What should the voltage read? Use the following diagram to assist your thought process: Previously we discussed a calomel reference electrode. A second type of reference electrode is also very common in lab - this one is called the...
1A. A voltage of 2.35 V was measured using a Ag/AgCl reference electrode with saturated KCl. What would this potential be if it were measured using a standard hydrogen electrode? 1B. What would the potential be if it were measured using a saturated calomel electrode? 2. At 25o C for an "ideal" pH electrode, what is the change in voltage between a pH 2.00 solution and a pH 7.00 solution? Place your answer in units of mV.
The half-cell potential of Ag/AgCl reference electrode provides a source of constant potential because: A. junction potential is negligible B. the Ag/AgCl half-reaction contains only solids C. B and C D. the [Ag+] of the filling solution is 0.010 M E. the [Ag+] of the filling solution is 0.010 M
Please answer all the questions with all the steps for this multi-step Extra Credit Question on Electro-Chemistry. Show all steps and provide explanations wherever possible. a)A half-cell reads -0.5 V relative to an S.H.E. What will the potential be relative to a saturated Ag/AgCl electrode (.197v)? b)What sign is the electrochemical potential of a spontaneous reaction? c)Given .01 A for 32 sec, how many moles of Fe2+ can be reduced to Fe metal? d)Given Eocathode = 0.1v, Eoanode = 0.2v,...
2. (20%) The standard potential of the AgCl/Ag, Cr couple fits the expression FO 0.23659-4.8564x10 0-3.4205x106 +5.869x10 8 Unit: E (V; 0 °c) Where: [4G"(H) = 0]; [4,Ge(Ag) = 0]; [4H.(H): 0]; [4m(Ag) = 0] (a) Evaluate the standard reaction Gibbs energy (G enthalpy (4,He) and entropy (4,Se ) at 298K (b) Calculate the standard Gibbs energy (ApG"(cr)and enthalpy(A4"(cr)of formation of Cl (aq) 2. (20%) The standard potential of the AgCl/Ag, Cr couple fits the expression FO 0.23659-4.8564x10 0-3.4205x106 +5.869x10...
QUESTION 9 For a particular cell based on the reaction: 3 AgCl(s) + Al(s) - 3 Ag(s) + A13+ (aq) + 3 CHaq) E - +1.884 V at 298K. What is the value of the equilibrium constant. K. at 298 K for the reaction? Enter your answer in exponential format (example 1.23E-4) with two decimal places and no units If you use the constants Rand Fin your calculation, use ONLY these values: R-8.31451 J/K F = 96,485 C/mol
20 Classify the following chemical reaction: 2 Ag (s)+Cl2 (g) ->2 AgCl (s) Choose all that apply a) combustion reaction b) single-replacement reaction c) double-replacement reaction d) nonredox reaction e) redox reaction f) synthesis reaction 28 f the dissociation constant of a weak acid is 1.8 x 10, at what ratio should you adjust the concentration of the weak acid and its conjugate base in order to prepare a buffer that has a pH of 3.747 a) 0.300 M weak...
complete question The figure shows a series of standard additions of Cu?+ to acidified tap water measured by anodic stripping voltammetry at an iridium electrode. The unknown and all standard additions were made up to the same final volume. 2.0 + 500 ppb +400 ppb 1.6 + 300 ppb +200 ppb 1.2 Current (A) + 100 ppb 0.8 Tap water 0.4 0.1 0.2 0.3 0.4 Potential (V vs. Ag | AgCl) Anodic stripping voltammograms of tap water and five standard...