Using your value of Keq, calculate the Fe3+, SCN-, and Fe(SCN)2+ equilibrium concentrations in the standard...

Use the mean value that you determined for Keq to calculate the SCN- concentration in a...

Use the mean value that you determined for Keq to calculate the SCN- concentration in a solution whose initial Fe3+ concentration was 4.00x10^-2 M (.04M) and initial SCN- concentration was 1.00x10^-3M (.001M). Is all the SCN- in the form of FeNCS2+? Does the result of the calculation in question 3 justify your original assumption that all of the SCN- is in the form of FENSS+2? My Keq is 378. I would greatly appreciate it if you showed every step. Thank...

Q1) Kf([Fe(SCN)]2+)=8.9*102. What is the equilibrium concentration of Fe3+ if the initial concentrations are [Fe3+]=2.0M, [SCN-]=2.5M,...

Q1) Kf([Fe(SCN)]2+)=8.9*102. What is the equilibrium concentration of Fe3+ if the initial concentrations are [Fe3+]=2.0M, [SCN-]=2.5M, and [Fe(SCN)-]=0M? Answer in M. Do NOT use scientific notation! Q2)25.00mL of 0.2104M acetic acid (HAc) with Ka=1.8*10-5 is titrated with 0.2000M KOH. What is the pH after 15mL of KOH is added? Do NOT use scientific notation!

1. When the system Fe3+(aq) + SCN-(aq) ⇌ FeSCN2+(aq) is at equilibrium, which one of the...

1. When the system Fe3+(aq) + SCN-(aq) ⇌ FeSCN2+(aq) is at equilibrium, which one of the following statements best describes the equilibrium state? a.neither the forward nor the reverse reaction has stopped b. the value of the equilibrium constant is 1 c. the concentrations of Fe3+, SCN-, and FeSCN2+ are always equal at equilibrium d. both the forward and the reverse reaction has stopped 2. Which of the following will change the value of an equilibrium constant? I) varying the...

A) a student measures out initial concentrations of 0.00111 M Fe3+and 0.00424 M SCN-. If the...

A) a student measures out initial concentrations of 0.00111 M Fe3+and 0.00424 M SCN-. If the equilibrium value of Fe(SCN)2+ is found to be 0.00047 M, what is the equilibrium concentrations of Fe3? B) From a plot of your calibration data, the slope is found to be 11.7. What will be the concentration of your absorbing species in a solution that has an absorbance of 0.372? C) Using the equilibrium reaction that you are using in your experiment, a student...

Absorbance             Initial concentrations Concentrations at equilibrium Kc* [Fe3+]o [SCN-]0 [FeSCN2+]eq [Fe3+]eq [SCN-]eq (au) (M) (M)...

Absorbance             Initial concentrations Concentrations at equilibrium Kc* [Fe3+]o [SCN-]0 [FeSCN2+]eq [Fe3+]eq [SCN-]eq (au) (M) (M) (M) (M) (M) (M-1) .888 0.200 .00200 0.00200 .250 0.001 0.0004 0.0000600 0.000940 0.00034 187.5 .420 0.001 0.0006 0.000100 0.000900 0.000500 222.2 .520 0.001 0.0008 0.000124 0.000876 0.000676 209.46 .640 0.001 0.001 0.0001535 0.0008465 0.0008465 214.38 Average 208.385 To obtain [FeSCN2+]eq in tube 5, you made the assumption that 100% of the ions SCN– had reacted. Now that you know the value for Kc...

Suppose that the reaction of Fe3+ and SCN– produces Fe(SCN)2+. 5.00 mL of 2.0 mM Fe3+...

Suppose that the reaction of Fe3+ and SCN– produces Fe(SCN)2+. 5.00 mL of 2.0 mM Fe3+ (aq) is mixed with 5.00 mL of 2.0 mM SCN– (aq). The student finds the equilibrium concentration of Fe(SCN)2+ to be 0.3 mM. 1. Write a balanced chemical equation for this reaction in solution. 2. Write an equilibrium constant expression for the reaction. 3. What is the initial number of moles of each species present? 4. What is the equilibrium number of moles of...

An equilibrium solution is prepared by mixing 2.750 mL of 0.001650 M SCN-, 5.000 mL of...

An equilibrium solution is prepared by mixing 2.750 mL of 0.001650 M SCN-, 5.000 mL of 0.001650 M Fe3+, and 2.750 mL of 0.05000 M HNO3. The equilibrium solution’s absorbance is determined to be 0.9150. Using this absorbance value and a standard curve, you determine that the equilibrium concentration of Fe(SCN)2+ is 0.0001830 M. Prepare an ICE table for the equilibrium mixture. Include the initial concentrations, changes in concentrations, and the equilibrium concentrations of Fe3+, SCN- and Fe(SCN)2+. Using the...

Calculate the initial molarity for Fe3+ and SCN- in each of the 6 vials. Using the...

Calculate the initial molarity for Fe3+ and SCN- in each of the 6 vials. Using the molarity of FeSCN2+ at equilibrium in each of the six trials, determine the molarity of each reactant when equilibrium is reached. I'm really confused on how to do this. Could someone please give me an example of just how to do the first one? Data I have: - initial concentration of Fe3+ = 1.8 * 10-4 M - initial concentration of SCN- = 2.0...

Solution Volume of 0.20 M Fe3+ Volume of 0.002 M SCN- Volume of H2O A-1 25.0...

Solution Volume of 0.20 M Fe3+ Volume of 0.002 M SCN- Volume of H2O A-1 25.0 mL 0.0 mL 75.0 mL A-2 25.0 mL 5.0 mL 70 mL A-3 25.0 mL 7.0 mL 68.0 mL A-4 25.0 mL 9.0 mL 66.0 mL A-5 25.0 mL 11.0 mL 64.0 mL Solution Volume of 0.002 M Fe3+ Volume of 0.002 M SCN- Volume of H2O B-1 5.0 mL 1.0 mL 5.0 mL B-2 5.0 mL 2.0 mL 4.0 mL B-3 5.0 mL...

Calculate the equilibrium concentrations of N2O4 and NO2 at 25 ∘C if the initial concentrations are...

Calculate the equilibrium concentrations of N2O4 and NO2 at 25 ∘C if the initial concentrations are [N2O4]= 0.0210 M and [NO2]= 0.0340 M. The equilibrium constant Kc for the reaction N2O4(g)⇌2NO2(g) is 4.64×10−3 at 25 ∘C. 1) Calculate the equilibrium concentration of N2O4. 2) Calculate the equilibrium concentration of NO2. I have worked through this problem several times and keep getting the wrong answer. I think I'm making a math error along the way. Could you show as much work...