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Table A. Preparation of Standard solutions of FeSCN2+ 1.0 M HNO3 0.002 M 0.200 M Solution...
Table A. Preparation of Standard solutions of FeSCN2+ 0.002 M 0.200 M 1.0 M HNO3 [FeSCN2+]...
Table A. Preparation of Standard solutions of FeSCN2+ 0.002 M 0.200 M 1.0 M HNO3 [FeSCN2+] (mol/L)* Solution KSCN (mL) Fe(NO3)3 (mL) 1 0.5 5 Add 1.0 M 1.0 5 N HNO3 3 1.5 5 4 2.0 5 to each to adjust the volume to 25 mL. 5 2.5 5 * Calculate the concentrations of FeSCN2+ in each beaker, assuming that all SCN-ions exist as FeSCN2+. In other words, [FeSCN2-] (in Soln 1) = [SCN-] (in Soln 1). The same...
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.
Determine the equilibrium concentration of FeSCN2+ in each solution. (Page below are the initial concentrations of...
Determine the equilibrium concentration of FeSCN2+ in each
solution. (Page below are the initial concentrations of FE3+ and
scn- for each solution )
Secondly, use stoichiometry to determine equilibrium FE3+ and
SCN -. ( concentration used for FE and KSCN are both 0.002M )
the absorbance of each standard in the same test tube used to blank the spectrophoto standards from least to most concentrated, rinsing with a small amount of the next sta tilling the test tube. Record absorbance...
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....
I need help calculating values for [Fe3+] and [FeSCN2+]. I don't know where to begin. Absorbance:...
I need help calculating values
for [Fe3+] and [FeSCN2+]. I don't know where to begin.
Absorbance:
1. 0.0619
2. 0.3953
3. 2.0000
4. 1.599
5. 1.249
Sample Volume(mL) of 0.002 M Fe3+ Volume(mL) of 0.10 M SCN Volume(mL) of 0.1 M HNO3 Volume(mL) of H20 0.00 10.00 5.0 5.0 030 10.00 50 47 0.60 10.00 5.0 4.4 1.20 10.00 5.0 3.8 2.00 10.00 5.0 3.0 2. Calculate the values for [Fe3+] in the samples and record in the data table...
Show all work to receive full credit. Express answers to the correct number of significant figures. Note: Complete...
Show all work to receive full credit. Express answers to the correct number of significant figures. Note: Complete the table below by calculating the initial SCN and equilibrium Fe(SCN)2+ concentrations for each of the five standard solutions. In addition to the volume of KSCN indicated in the table below each solution contains 5.00 mL of Fe(NO,)a and sufficient 0.050 M HNO3 to produce a total volume of 25.00 mL of solution. 1. Fe3+ +SCN Fe(SCN)2+ 0.00200 M Molarity of KSCN...
Use the information in the Table below to calculate the concentrations of [Fe3+], [SCN-] and [FeSCN2+]. Can you check to...
Use the information in the Table below to
calculate the concentrations of
[Fe3+],
[SCN-] and
[FeSCN2+].
Can you check to see if the concentrations in the first table is
correct also?
Solution 0.05M 0.00200M 0.200M [Fe(NO3)3FeSCN2 [KSCN] HNO3 KSCN Fe(NOs)3 0.04 M 5.0 mL 2.0 x 10 M 1 17.5 mL 2.5mL 2.0 x 104 M 0.04 M 18.0 mL 2.0 mL 2 5.0 mL 1.6 x 104 M 1.6 x 104 M 0.04 M 1.5 mL 3 18.5 mL...
For each equilibrium sample, calculate the initial concentrations (assuming no reaction occurred)...
For each equilibrium sample, calculate the initial
concentrations (assuming no reaction occurred) of SCN–
and Fe3+ based on the dilution factors used.
Enter the absorbance values for each sample.
For the standard solution, assume that, when equilibrium is
reached, the [FeSCN2+]eq is equal to
[SCN–]ini. Why is this a good
assumption?
For the equilibrium solutions, calculate the
[FeSCN2+]eq (Ceq) using Eq.
4.
Using Eq. 5 and 6, calculate
[Fe3+(aq)]eq and
[SCN–(aq)]eq for each equilibrium
solution.
Calculate values for the equilibrium...
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....
1. You prepare a mixture to use to create a colorimetry calibration curve for FeSCN2+ by...
1. You prepare a mixture to use to create a colorimetry calibration curve for FeSCN2+ by mixing these things in a 25.00 mL volumetric flask and then diluting to the volume of the flask with 0.3 M HNO3. 5.00 mL 0.00200 M NaSCN 10.00 mL 0.30 M Fe(NO3)3 What is the concentration of FeSCN2+ in this mixture? [Pay attention to the values to determine which reactant is being driven to completely react...] 2. You prepare a mixture to use to...
Table A. Preparation of Standard solutions of FeSCN2+ 0.002 M 0.200 M 1.0 M HNO3 [FeSCN2+] (mol/L)* Solution KSCN (mL) Fe(NO3)3 (mL) 1 0.5 5 Add 1.0 M 1.0 5 N HNO3 3 1.5 5 4 2.0 5 to each to adjust the volume to 25 mL. 5 2.5 5 * Calculate the concentrations of FeSCN2+ in each beaker, assuming that all SCN-ions exist as FeSCN2+. In other words, [FeSCN2-] (in Soln 1) = [SCN-] (in Soln 1). The same...
Determine the equilibrium concentration of FeSCN2+ in each
solution. (Page below are the initial concentrations of FE3+ and
scn- for each solution )
Secondly, use stoichiometry to determine equilibrium FE3+ and
SCN -. ( concentration used for FE and KSCN are both 0.002M )
the absorbance of each standard in the same test tube used to blank the spectrophoto standards from least to most concentrated, rinsing with a small amount of the next sta tilling the test tube. Record absorbance...
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....
I need help calculating values
for [Fe3+] and [FeSCN2+]. I don't know where to begin.
Absorbance:
1. 0.0619
2. 0.3953
3. 2.0000
4. 1.599
5. 1.249
Sample Volume(mL) of 0.002 M Fe3+ Volume(mL) of 0.10 M SCN Volume(mL) of 0.1 M HNO3 Volume(mL) of H20 0.00 10.00 5.0 5.0 030 10.00 50 47 0.60 10.00 5.0 4.4 1.20 10.00 5.0 3.8 2.00 10.00 5.0 3.0 2. Calculate the values for [Fe3+] in the samples and record in the data table...
Show all work to receive full credit. Express answers to the correct number of significant figures. Note: Complete the table below by calculating the initial SCN and equilibrium Fe(SCN)2+ concentrations for each of the five standard solutions. In addition to the volume of KSCN indicated in the table below each solution contains 5.00 mL of Fe(NO,)a and sufficient 0.050 M HNO3 to produce a total volume of 25.00 mL of solution. 1. Fe3+ +SCN Fe(SCN)2+ 0.00200 M Molarity of KSCN...
Use the information in the Table below to
calculate the concentrations of
[Fe3+],
[SCN-] and
[FeSCN2+].
Can you check to see if the concentrations in the first table is
correct also?
Solution 0.05M 0.00200M 0.200M [Fe(NO3)3FeSCN2 [KSCN] HNO3 KSCN Fe(NOs)3 0.04 M 5.0 mL 2.0 x 10 M 1 17.5 mL 2.5mL 2.0 x 104 M 0.04 M 18.0 mL 2.0 mL 2 5.0 mL 1.6 x 104 M 1.6 x 104 M 0.04 M 1.5 mL 3 18.5 mL...
For each equilibrium sample, calculate the initial
concentrations (assuming no reaction occurred) of SCN–
and Fe3+ based on the dilution factors used.
Enter the absorbance values for each sample.
For the standard solution, assume that, when equilibrium is
reached, the [FeSCN2+]eq is equal to
[SCN–]ini. Why is this a good
assumption?
For the equilibrium solutions, calculate the
[FeSCN2+]eq (Ceq) using Eq.
4.
Using Eq. 5 and 6, calculate
[Fe3+(aq)]eq and
[SCN–(aq)]eq for each equilibrium
solution.
Calculate values for the equilibrium...
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