Calculate the concentration of free Fe3+ in a solution of 0.10M FeY- at pH1.00. the formation...

Calculate Fe3+ in 0.10M FeY- at pH 2.0 and 8.0

Calculate Fe3+ in 0.10M FeY- at pH 2.0 and 8.0

Calculate the ph of a solution prepared by mixing 15.0ml of 0.10M NaOH and 30.0ml of...

Calculate the ph of a solution prepared by mixing 15.0ml of 0.10M NaOH and 30.0ml of 0.10M benzoic acid solution. (Benzoic acid is monoprotic, it's dissociation constant is 6.5×10^-5)

The formation constant, Kf, for Ni(NH3)6 (charge -1) is 5.5e8. Calculate the concentration of free nickel...

The formation constant, Kf, for Ni(NH3)6 (charge -1) is 5.5e8. Calculate the concentration of free nickel ion in a solution that contains .012M Ni2+ and 1.0M NH3.

2) The dissociation constant for Fe(enterobactin)]3- at high pH is 10-49 M, a) Calculate the concentration...

2) The dissociation constant for Fe(enterobactin)]3- at high pH is 10-49 M, a) Calculate the concentration of free Fe3+ in a 10 µM solution of Fe(enterobactin)]3-. b) How many free iron ions are present in 1 L of such a solution?  

the formation constant for the complex formed on reaction of calcium ion with EDTA, CaY2-, is...

the formation constant for the complex formed on reaction of calcium ion with EDTA, CaY2-, is 4.47 x 10-11. calculate the concentration of free ca2+ in a solution of 0.1 M CaY2 at pH 10 and at pH 6. ionic strength effects may be ignored

Taking the activity coefficient effect into consideration, calculate the concentration of Fe3+ in a solution that...

Taking the activity coefficient effect into consideration, calculate the concentration of Fe3+ in a solution that is saturated with Fe4[Fe(CN6]3 (Iron(III) ferrocyanide). The overall ionic strength of the solution is .01 M. Iron(III) ferrocyanide Ksp = 3.3*10-41. The answer starts with 5.90... please show ALL steps

3a. Suppose that 5.0 mL of a 0.0030M solution of Fe3+ is mixed with 10.0 mL...

3a. Suppose that 5.0 mL of a 0.0030M solution of Fe3+ is mixed with 10.0 mL of a 0.0060 M solution of SCN-. If the final equilibrium Fe(SCN)2+ concentration is measured to be 0.00524M, what are the final equilibrium concentrations for the other two species? 3b. Using the results from question 3a above, calculate the equilibrium constant K for the formation of Fe(SCN)2+ from SCN- and Fe3+.

A solution containing 30.00 ml of 0.0500 M metal ion buffered to pH = 10.00 was...

A solution containing 30.00 ml of 0.0500 M metal ion buffered to pH = 10.00 was titrated with 0.0400 M EDTA. Answer the following questions and enter your results with numerical value only. Calculate the equivalence volume, Ve, in milliliters. Calculate the concentration (M) of free metal ion at V = 1/2 Ve. Calculate the fraction (αY4-) of free EDTA in the form Y4-. Keep 2 significant figures. If the formation constant (Kf) is 1012.00. Calculate the value of the...

What is the concentration of free Mn2+ in a 0.03 M solution of MnY2- buffered at...

What is the concentration of free Mn2+ in a 0.03 M solution of MnY2- buffered at pH 9? Calculate the concentration of free Mn2+ in the solution if you dilute it by a factor of 10. Does this concentration go up, go down or stay the same? Give a chemical reason for your answer.

5 acetic acid solutions, 0.10M, 0.50M,1.00M, 3.00M, 6.00M. (PL5) Calculate pH for a solution which has...

5 acetic acid solutions, 0.10M, 0.50M,1.00M, 3.00M, 6.00M. (PL5) Calculate pH for a solution which has [H+] = 0.765M. (PL6) Calculate [H+] for a solution with pH=3.65 A1) Calculate percent dissociation of 5 solutions. Show your work clearly for 0.10M solution. (A2) Draw a graph of percent dissociation vs. concentration. Label everything. (Q1) What is the theoretical pH of 1.00M acetic acid (Ka = 1.8x10^-5) (Q2) What is the theoretical percent dissociation for Q1? (Q3) What is the theoretical pH...