Consider the titration of 30.0 mL of 0.0100 M CoSO4 with 0.0150 M EDTA in a solution buffered to pH 9.00. Calculate pCo2+ at 20.0 mL of EDTA added. Report the answer to three significant figures.
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Consider the titration of 30.0 mL of 0.0100 M CoSO4 with 0.0150 M EDTA in a...
8. Consider the titration of 30.0 mL of 0.100 M NH3 (K5= 1.8 x 10-) with 0.150 M HCl. Calculate the pH of the resulting solution after the 20.0 mL of HCl have been added. ₂NH2lag) + HClcag NHut cag) & crcag 30 mLX.1=3.
The next 7 questions are related to the titration of 40.0 mL of a 0.0150 M Zn2+ solution with 0.0250 M EDTA in a solution buffered at pH 5. Assume that the temperature is 25 oC and that the formation constant for Zn2+ is 3.13 x 1016 at this temperature. Need help with the last one please! How many mmols of Zn2 are present in the solution before the titration begins? 0.60 mmol You are correct Your receipt no. is...
Problem 1: Consider titration of 24.0 mL of 0.0800 M Ga(NO3)3 with 0.0400 M EDTA at pH 4.00. (a) Calculate pGa+ (to the 2nd digit after the decimal point) upon addition of 10.00 mL of the EDTA solution. Log Ki= 20.30. (b) What is the pGa at the equivalence point of this titration? (C) What is the pGa upon addition of 50.00 mL of the EDTA solution?
10.7 10.00 mL of a solution of Hg2+ and 25.00 mL of 0.04516 M EDTA are added to 100 mL of pH 10 buffer. The resulting solution is titrated with 21.77 mL of 0.02385 M Mg2+ solution. What was the molarity of the Hg2+ solution? Report the answer with the correct number of significant figures.
A 30.0 mL sample of 0.0200M Cu2t buffered at pH 9.00 is titrated with 0.0300 M EDTA. Calculate pCut at each of the added volumes of EDTA. For the Cu2+-EDTA complex, log Kr is 18.78. The fraction of free EDTA in the Y form, ay can be found in this table. O mL pCu2+ 6.67 mL pCu2+ 20.0 mL pCu2 Values of ay for EDTA a PH ay4- 0 1.3 x 10-23 1 1.4 x 10-18 2 2.6 x 10-14...
Consider the titration of 100.0 mL of 0.100 M methylamine (CH3NH2) with 0.500 M HNO3. Calculate the pH at the following volumes of acid added. For CH3NH3+, pKa = 10.632 (a) Find the equivalence point volume. (b) 0 mL (c) 9.0 mL (d) 10.0 mL (e) 20.0 mL (f) 30.0 mL
Calculate pNi2 at each of the points in the titration of 23.53 mL of 0.0364 M EDTA with 0.0182 M NIC1,. The EDTA solution is buffered at a pH of 10.00. The fraction of free EDTA in the Y4- form (ay* ) can be found in this table. The formation constant for the Ni2+-EDTA complex is given by log K 18.4 4.706 mL pNi2+ 18.82 mL pNi2+ 37.65 mL pNi2 46.12 mL pNi2+ 46,97 mL pNi2 47.06 mL pNi2+ 47.15...
Calculate pNi2 at each of the points in the titration of 23.53 mL of 0.0364 M EDTA with 0.0182 M NIC1,. The EDTA solution is buffered at a pH of 10.00. The fraction of free EDTA in the Y4- form (ay* ) can be found in this table. The formation constant for the Ni2+-EDTA complex is given by log K 18.4 4.706 mL pNi2+ 18.82 mL pNi2+ 37.65 mL pNi2 46.12 mL pNi2+ 46,97 mL pNi2 47.06 mL pNi2+ 47.15...
10.4 Calculate the mL of 0.100 M EDTA needed to titrate 100.0 mL of a 0.0100 M solution of these metal ions. (a) TI (b) Pb (10.0 mL) (c) Fe+