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Keq determination 1 0.9 2900X 0.00 R -0.9985 08 Absorbance 0.7 0.6 0.5 0.4 0.3 0.2...
Standard solutions of [Fe(SCN)2-] were prepared and their absorbance measured in order to study the Keq...
Standard solutions of [Fe(SCN)2-] were prepared and their absorbance measured in order to study the Keq for the reaction Fe3+ + SCN- <=> FeNCS2+ A plot of absorbance verses concentration of [Fe(SCN)2-] is shown below. To determine the Keq for the above reaction, 10.00 mL of 0.00200 M Fe(NO3)3 solution is mixed with 5.00 mL of 0.0020 M KSCN and diluted with 5.0 mL 0f 0.10 M HNO3. The absorbance of this red solution is found to be 0.322....
need help. please explain Mixture FeSCN Absorbance O-149 O-250 O-314 O.432 O.521 1 3 Caloudations xperiment...
need help. please explain
Mixture FeSCN Absorbance O-149 O-250 O-314 O.432 O.521 1 3 Caloudations xperiment 23. z046 Lab Complete the tables below for each of the five mixtures you prepared. You may use this page to replace the data pages for Expt. # 23 that appear in your lab manual. Mixture #1 [Fe ISCN [FeSCN1 Initial A Equilibrium K Mixture #2 [Fe"] SCNT FESCN Initial Equilibrium Ke= Mixture #3 Fe"] SCN' FESCN Initial Equilibrium K.= Mixture #4 FeSCN Fe...
Determination of an Equilibrium Constant 1) If 20.0 mL of 0.00200 M Fe(No3)3 is diluted to...
Determination of an Equilibrium Constant 1) If 20.0 mL of 0.00200 M Fe(No3)3 is diluted to 50.0 mL, what is the concentration of Fe^+3 in the diluted solution? 2) Write the equilibrium for the following reaction. Co^+2 +4SCN^-1 <--> Co(SCN)4 ^-2 3) How many mmoles of SCN^-1 ion are there in 3.0 mL of 0.00200 M KSCN?
I need the whole table to be completed and calculations only for E2 Beer's Law Plot...
I need the whole table to be
completed and calculations only for E2
Beer's Law Plot 0.45 Concentr. Absorbance 0 0 0.00004 0.074 0.00008 0.171 0.00012 0.252 0.00016 0.338 0.0002 0.416 0.4 0.35 I 0,3 y = 2109.3x -0.0024 R2 = 0.9991 0.25 Absorbance (A) 0.2 0.15 0.1 0.05 0 0 0.00005 0.0001 0.00015 0.0002 Concentration(FeSCN2+] Part II. Equilibrium Mixtures Stock solution concentration, [NaSCN) = 0.00200 M (in 0.10 M HNO3) Stock solution concentration, [Fe(NO3)3] = 0.00200 Min 0.10 M...
please do 1 through 4. Thank you. 0 1. Fe 1.SCN Procedure B: 1. Prepare ICE...
please do 1 through 4. Thank you.
0 1. Fe 1.SCN Procedure B: 1. Prepare ICE tables for beakers 2 - 6 using the example below as a guideline (you will have 5 different ICE tables). Table 3. Sample "ICE" table. Fe(aq)*3 + SCN(aq) = FeSCN2 Initial: **M calculated **M calculated using your Table 2 using your Table 2 volumes volumes Change: - 1x - 1x Equilibrium: M 1x 1x = concentration calculated from Procedure A slope-intercept equation +1x M...
What's the concentration of [FeSCN2+] using limiting reactant theory and equation? For each test tube solution...
What's the concentration of [FeSCN2+] using limiting
reactant theory and equation?
For each test tube solution enter the initial concentration of Fe+ and SCNthe equilibrium concentration of FeSCN2: into the ICE table given. Complete entries for the rest of the table and calculate the K value for each of the tables. The values of K should be confined to a narrow range to reflect constancy. Comment on the quality of your work in this regard and calculate the average K....
Beers law solve for E3 and E4 showing work Part II. Equilibrium Constant Calculations Calculate the...
Beers law solve for E3 and E4 showing work
Part II. Equilibrium Constant Calculations
Calculate the initial moles of Fe3+ and SCN- for solutions E2
through E6 and record these values in the table on your Data Sheet.
You obtain the moles of the reactants by multiplying their molarity
by the volume (in L) of their solution used.
Determine the equilibrium concentration of FeSCN2+ for each of
the solutions E2-E6 from your Beer’s Law plot. Using these
equilibrium concentrations, the...
help with finding the equilibrium of [Fe(SCN)^2+] morality value Equilibrium Solutions Data 1. Use your "Absorbance...
help with finding the equilibrium of [Fe(SCN)^2+] morality value
Equilibrium Solutions Data 1. Use your "Absorbance of Solution" values and the graph you made above to interpolate the "Equilibrium [Fe(SCN)]" molarity values. 2. Calculate both the "Initial [Fe ]" and the "Initial [SCN']" molarity values using then dilution equation CiVi C2V2. 3. Calculate the "Equilibrium [Fe ]" molarity values by subtracting the "Equilibrium [Fe(SCN) " molarity values from the "Initial [Fe'" molarity values. 4. Calculate the "Equilibrium [SCN']" molarity values...
Part II. Determination of Unknown SCN concentration. 0.387 9=3663.24-0.0427 1. Use the absorbance you measured for...
Part II. Determination of Unknown SCN concentration. 0.387 9=3663.24-0.0427 1. Use the absorbance you measured for part II and the equation you obtained from part I to calculate the concentration of FeSCN In the cuvette. Show your calculations with formulas and report the result. 2. Since KSCR was limiting reactant, you may consider amounts of FeSCN and SCN to be the same. KSCN was diluted from the original unknown concentration in the bottle (c1) when the required by the protocol...
Soln. 2.5x10-3 M Fe(NO3)3 mL 2.5X10-3 M KSCN mL 0.5 M HNO3 mL Absorbance A 5...
Soln. 2.5x10-3 M Fe(NO3)3 mL 2.5X10-3 M KSCN mL 0.5 M HNO3 mL Absorbance A 5 1 4 0.020 B 5 2 3 0.034 C 5 3 2 0.037 D 5 4 1 0.056 E 5 5 0 0.066 Calibrated at max wavelength of FeSCN2+ = 485.80nm Final concentration of Fe3+ = 5.56*10-5 Using M1V1=M2V2, calculate the initial concentrations of the reactant Fe3+, (m) and SCN- (n) in each solution A-E.
need help. please explain
Mixture FeSCN Absorbance O-149 O-250 O-314 O.432 O.521 1 3 Caloudations xperiment 23. z046 Lab Complete the tables below for each of the five mixtures you prepared. You may use this page to replace the data pages for Expt. # 23 that appear in your lab manual. Mixture #1 [Fe ISCN [FeSCN1 Initial A Equilibrium K Mixture #2 [Fe"] SCNT FESCN Initial Equilibrium Ke= Mixture #3 Fe"] SCN' FESCN Initial Equilibrium K.= Mixture #4 FeSCN Fe...
I need the whole table to be
completed and calculations only for E2
Beer's Law Plot 0.45 Concentr. Absorbance 0 0 0.00004 0.074 0.00008 0.171 0.00012 0.252 0.00016 0.338 0.0002 0.416 0.4 0.35 I 0,3 y = 2109.3x -0.0024 R2 = 0.9991 0.25 Absorbance (A) 0.2 0.15 0.1 0.05 0 0 0.00005 0.0001 0.00015 0.0002 Concentration(FeSCN2+] Part II. Equilibrium Mixtures Stock solution concentration, [NaSCN) = 0.00200 M (in 0.10 M HNO3) Stock solution concentration, [Fe(NO3)3] = 0.00200 Min 0.10 M...
please do 1 through 4. Thank you.
0 1. Fe 1.SCN Procedure B: 1. Prepare ICE tables for beakers 2 - 6 using the example below as a guideline (you will have 5 different ICE tables). Table 3. Sample "ICE" table. Fe(aq)*3 + SCN(aq) = FeSCN2 Initial: **M calculated **M calculated using your Table 2 using your Table 2 volumes volumes Change: - 1x - 1x Equilibrium: M 1x 1x = concentration calculated from Procedure A slope-intercept equation +1x M...
What's the concentration of [FeSCN2+] using limiting
reactant theory and equation?
For each test tube solution enter the initial concentration of Fe+ and SCNthe equilibrium concentration of FeSCN2: into the ICE table given. Complete entries for the rest of the table and calculate the K value for each of the tables. The values of K should be confined to a narrow range to reflect constancy. Comment on the quality of your work in this regard and calculate the average K....
Beers law solve for E3 and E4 showing work
Part II. Equilibrium Constant Calculations
Calculate the initial moles of Fe3+ and SCN- for solutions E2
through E6 and record these values in the table on your Data Sheet.
You obtain the moles of the reactants by multiplying their molarity
by the volume (in L) of their solution used.
Determine the equilibrium concentration of FeSCN2+ for each of
the solutions E2-E6 from your Beer’s Law plot. Using these
equilibrium concentrations, the...
help with finding the equilibrium of [Fe(SCN)^2+] morality value
Equilibrium Solutions Data 1. Use your "Absorbance of Solution" values and the graph you made above to interpolate the "Equilibrium [Fe(SCN)]" molarity values. 2. Calculate both the "Initial [Fe ]" and the "Initial [SCN']" molarity values using then dilution equation CiVi C2V2. 3. Calculate the "Equilibrium [Fe ]" molarity values by subtracting the "Equilibrium [Fe(SCN) " molarity values from the "Initial [Fe'" molarity values. 4. Calculate the "Equilibrium [SCN']" molarity values...
Part II. Determination of Unknown SCN concentration. 0.387 9=3663.24-0.0427 1. Use the absorbance you measured for part II and the equation you obtained from part I to calculate the concentration of FeSCN In the cuvette. Show your calculations with formulas and report the result. 2. Since KSCR was limiting reactant, you may consider amounts of FeSCN and SCN to be the same. KSCN was diluted from the original unknown concentration in the bottle (c1) when the required by the protocol...
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