Consider the titration of 25.00 mL of 0.0925 M KI with 0.0695 M AgNO3. Calculate pAg+ at the following volumes of added AgNO3: (a) 30.00 mL; (b) Ve; (c) 35.27 mL. Ksp (AgI) = 8.3×10-17
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Consider the titration of 25.00 mL of 0.0925 M KI with 0.0695 M AgNO3. Calculate pAg+...
Consider the titration of 25.00 mL of 0.07920 M KI with 0.05410 M AgNO3. Calculate pAg+ at a) 25.00 mL > ?? b) Ve > M1V1 = M2V2 (0.07920)(0.025)=(0.05410)(Ve) --------> Ve = 36.60 mL c) 45.00 mL > ?? of AgNO3 added (Ksp= 8.3*10-17). Show ALL work. pAg+ = -log[Ag]
The Ksp of AgI is 8.3× 10–17. You titrate 25.00 mL of 0.08160 M NaI with 0.05190 M AgNO3. Calculate pAg after the following volumes of AgNO3 are added: (a) at 35.10 mL (b) at Ve (volume at equilibrium) (c) at 47.10 mL
A 25.00 mL solution of 0.08050 M NaI is titrated with 0.05000 M AgNO3 . Calculate pAg+ following the addition of the given volumes of AgNO3 . The ?sp of AgI is 8.3×10−17 . 35.80 mLpAg+= ?epAg+= 47.90 mLpAg+=
The Ksp of AgI is 8.3× 10–17. You titrate 25.00 mL of 0.08870 M NaI with 0.05050 M AgNO3. Calculate pAg after the following volumes of AgNO3 are added: (a) 37.20 ml (b) Veq (c) 47.20 ml
A 25.00 mL solution of 0.08700 M NaI is titrated with 0.05140 M AgNO3 . Calculate pAg+ following the addition of the given volumes of AgNO3 . The
Perform the calculations needed to generate a titration curve for 50.00 ml of a 0.0500 M NaCl solution titrated with 0.1000 M AgNO3 . Note for AgCl the Ksp = 1.82×10-10 . (i) Calculate pAg when 10.00 ml of AgNO3 is added. (ii) Calculate pAg when 25.00 ml of AgNO3 is added. (iii) Calculate pAg when 26.00 ml of AgNO3 is added. Given the solubility products above, show (by calculation) which of the two compounds concerned has the greater solubility...
Calculate Qip (ion product) for a mixture containing 25 mL of 5.0 × 10–9 M AgNO3 and 75 mL of 6.5 ×10–8 M KI. Decide whether AgI will precipitate from this mixture. The Ksp for AgI is 8.3 × 10–17 show all work
A 25.00 mL solution of 0.08610 M Nal is titrated with 0.05000 M AgNO . Calculate pAg+ following the addition of the given volumes of AgNO,. The Ksp of Agl is 8.3 x 10-'7. 37.40 mL pAgt = V pAgt = 47.90 mL pAgt =
At 25 ∘C,25 ∘C, a titration of 15.0015.00 mL of a 0.0360 M AgNO30.0360 M AgNO3 solution with a 0.0180 M NaI0.0180 M NaI solution is conducted within the cell SCE || titration solution | Ag(s)SCE || titration solution | Ag(s) For the cell as written, what is the potential after the addition of each volume of NaI solution? The reduction potential for the saturated calomel electrode is ?=0.241 V. The standard reduction potential for the reaction Ag+ + e−...
6A. Construct the titration curve for a 20.00 m, mixture solution of 0.0800 M in I and 0.0800M in Cl titrated with 0.1000 M AgNO3. Calculate the pAg values of the titration solution atter addition of 6.00mL, 16.00 mL, and 26.00 mL of 0.1000 M AgNO solution. 18) Kp AgCl = 1.77 × 10-10ー[Ag+][Cl] Ksp Agl 8.3 x 101-AgI