For this equilibrium : Fe3+ + SCN- <====> [FeSCN]2+ If Z = 4.28103 M -1. A...
For this equilibrium :
Fe3+ + SCN- <====> [FeSCN]2+
If Z = 4.28103 M -1. A solution at equilibrium that initially contained 1.59 x10-3[SCN] and 8.46x10-4 M [Fe2+] was found to have an absorbance of 0.402 units. What is the equilibrium constant? please explain
Homework Answers
Fe3+ (aq) + SCN- (aq)<====> [FeSCN]2+(aq)
We are provided with the following-
Z, slope = 4.28103M-1
Absorbance, A = 0.402
[Fe3+] = 8.46x10-4M [SCN-]= 1.59 x10-3 M
We are required to find Kc i.e. the equilibrium constant for this reaction-
The equation of Kc for the above reaction is-
Kc = [FeSCN]2+ / [Fe3+] [SCN-]
We already know [Fe3+] and [SCN-] as it has been already provided in the question. We just need to find out [FeSCN]2+, put all the data in the Kc equation to get the answer.
To know [FeSCN]2+, there exists a relation between absorbance, concentration and slope which is-
Absorbance=slope⋅conc.
conc.of [FeSCN]2+ =Absorbance / slope
or, conc.of [FeSCN]2+ = 0.402 / 4.28103M-1
or, conc.of [FeSCN]2+ = 0.0939M
Now that we have obtained the conc.of [FeSCN]2+ , we can now putt the all the values in the Kc equation to find the value of Kc-
Kc = [FeSCN]2+ / [Fe3+] [SCN-]
Kc = 0.0939M / (8.46x10-4M x1.59 x10-3 M)
Kc = 0.0939M / 1.34514 x 10-6M
Kc = 0.0698 x 106
Add Answer to:
For this equilibrium :
Fe3+ + SCN- <====>
[FeSCN]2+
If Z = 4.28103 M -1. A...
1) Consider the following equilibrium: Fe3+(aq) + SCN-(aq) ⇌ FeSCN2+(aq) Initial concentrations: [Fe3+] = 0.590; [SCN-]...
1) Consider the following equilibrium: Fe3+(aq) + SCN-(aq) ⇌ FeSCN2+(aq) Initial concentrations: [Fe3+] = 0.590; [SCN-] = 1.239; [FeSCN2+] = 0 The equilibrium concentration of [FeSCN2+]eq = 0.454 M. What is the numerical value of KC for this equilibrium? KC = __________________ 2) Consider the following equilibrium: Fe3+(aq) + SCN-(aq) ⇌ FeSCN2+(aq) Initial concentrations: [Fe3+] = 0.370; [SCN-] = 0.777; [FeSCN2+] = 0 The equilibrium concentration of [FeSCN2+]eq = 0.285 M. What is the equilibrium concentration of Fe3+? [Fe3+]eq =...
-Equilibrium Concentration of [Fe(SCN)2+] – Reacted Concentration of Fe3+ – Reacted Concentration of SCN- –...
-Equilibrium Concentration of [Fe(SCN)2+] – Reacted Concentration of Fe3+ – Reacted Concentration of SCN- – Equilibrium Concentration of Fe3+ – Equilibrium Concentration of SCN- – Equilibrium Constant, Kc M(Fe) M(SCN) 0.00229 0.00206 Test Solutions Concentration Absorbance 1 0 0 2 0.0000618 0.154 3 0.000103 0.22 4 0.000144 0.352 5 0.000206 0.514 From Graph: y = 0.1226x - 0.1198 R² = 0.9844
Equilibria can be treated mathematically with the equilibrium constant, K. For the reaction Fe3+ + SCN...
Equilibria can be treated mathematically with the equilibrium
constant, K. For the reaction Fe3+ + SCN − equilibrium reaction
arrow FeSCN2+, the equilibrium constant expression is [FeSCN2+ ] K
= [Fe3+ ] · [SCN − ] where, for example, [Fe3+ ] is the molar
concentration (mol Fe3+ / L solution) present in an equilibrium
mixture. At some temperature, a chemist found the following
equilibrium concentrations. [Fe3+ ] = 8.17 ✕ 10−3 M, [SCN − ] =
8.60 ✕ 10−3 M,...
Fe3(aq) FESCN (aq) SCN (aq) In this experiment, we'll be examining the temperature-dependence of the rate constant...
Fe3(aq) FESCN (aq) SCN (aq) In this experiment, we'll be examining the temperature-dependence of the rate constant for the reaction above. 1. Using the UV-Vis instrument, you measured a room temperature absorbance for FESCN2 at 477 nm of 0.815. What is its concentration in molarity (M)? Please show all work. The molar absorptivity for FeSCN2 is 4,258 м"сm1 a. Answer: b. You calculated the [FeSCN2] above from the observed room temperature absorbance. Which one of the following statements about the...
Lab Report: Determination of Kc for a Complex Ion Formation tube 2.00e-3 Fe3+ (mL) 2.00E-3M SCN-...
Lab Report: Determination of Kc for a Complex Ion Formation
tube
2.00e-3 Fe3+ (mL)
2.00E-3M SCN- (mL)
water (mL)
initial conc. Fe3+
initial conc. SCN-
1
5.00
5.00
0
1.00e-3M
1.00E-3M
2
5.00
4.00
1.00
1.00E-3M
8.00E-3M
3
5.00
3.00
2.00
1.00E-3,
6.00E-3M
4
5.00
2.00
3.00
1.00E-3M
4.00E-3M
5
5.00
1.00
4.00
1.00E-3M
2.00E-3M
10ml of 0.200M Fe3+, 2.00ml of 0.00200M SCN-, AND 8.00ml of
water results in an eq. [FeSCN2+] IN Standard
Soln.:2.00E-4M
Could you please explain how...
Fe (aq)SCN-(aq) FeSCN (aq) thiocyanate iron(II) thiocyanoiron(il) Introduction When the reactants shown above, are combined, chemical...
Fe (aq)SCN-(aq) FeSCN (aq) thiocyanate iron(II) thiocyanoiron(il) Introduction When the reactants shown above, are combined, chemical equilibrium is reached rapidly. Once equilibrium is established, the equilibrium constant can be calculated if the concentration of all the ions are known: [FeSCNP.he [SCN-... and (Feng Your task is to prepare three different equilibrium systems that contain different concentrations of these ions. Keep in mind that although the concentrations will be different, the value of the equilibrium constant Ke will be indeed constant...
Calculate [Fe3+] and [SCN-] for each of the nine trials. Show the calculations for Sample 1...
Calculate [Fe3+] and [SCN-] for each of the nine trials. Show
the calculations for Sample 1
calibration curve is y=3967.7x-0.0822
the R^2 value is y=0.09959
Solution [SCN-1 2.06764 Stock solution B Absorbance Dilution 1 (50.0%) 1.0 xl-4 0.723 Dilution 2 (25.0%) S.Oxon Dilution 3 (12.5%) 2.5X2.5 (FeSCN2+). 2.0 X10" 1.0X10-4M 5.0x105m 2.5x105m 0.289 1o.lll 10.036 Calibration curve trendline equation Y 3967.7% -0.0823 R2 value of trendline R 0.99 se Sample Number 0.0020 M Fe(NO2), (ml) 0.0020 M KSCN (mL) 8...
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...
help with calculating the “initial [SCN^—]” M and the Equilibrium [Fe(SCN^2+)] M. i have one. just...
help with calculating the “initial [SCN^—]” M and the Equilibrium
[Fe(SCN^2+)] M.
i
have one. just not sure how to set up the equation to find the
inital [SCN^-] . not sure if im calculating it correctly.
Data Manipulation and Calculations Calibration Solutions Data 1. Calculate the "Initial [SCN']" molarities for the solutions using the dilution equation CiVI=C2V2 2. Use the net ionic equation for the reaction, the ratio of [Fe3 [SCN'] used, and your knowledge of Le Châtelier's Principle...
Consider the following reaction: Fe3+(aq)+SCN−(aq)⇌FeSCN2+(aq) A solution is made containing an initial [Fe3+] of 1.2×10−3 M...
Consider the following reaction: Fe3+(aq)+SCN−(aq)⇌FeSCN2+(aq) A solution is made containing an initial [Fe3+] of 1.2×10−3 M and an initial [SCN−] of 8.2×10−4 M . At equilibrium, [FeSCN2+]= 1.8×10−4 M . Calculate the value of the equilibrium constant (Kc)(Kc). Express your answer using two significant figures.
Equilibria can be treated mathematically with the equilibrium
constant, K. For the reaction Fe3+ + SCN − equilibrium reaction
arrow FeSCN2+, the equilibrium constant expression is [FeSCN2+ ] K
= [Fe3+ ] · [SCN − ] where, for example, [Fe3+ ] is the molar
concentration (mol Fe3+ / L solution) present in an equilibrium
mixture. At some temperature, a chemist found the following
equilibrium concentrations. [Fe3+ ] = 8.17 ✕ 10−3 M, [SCN − ] =
8.60 ✕ 10−3 M,...
Fe3(aq) FESCN (aq) SCN (aq) In this experiment, we'll be examining the temperature-dependence of the rate constant for the reaction above. 1. Using the UV-Vis instrument, you measured a room temperature absorbance for FESCN2 at 477 nm of 0.815. What is its concentration in molarity (M)? Please show all work. The molar absorptivity for FeSCN2 is 4,258 м"сm1 a. Answer: b. You calculated the [FeSCN2] above from the observed room temperature absorbance. Which one of the following statements about the...
Lab Report: Determination of Kc for a Complex Ion Formation
tube
2.00e-3 Fe3+ (mL)
2.00E-3M SCN- (mL)
water (mL)
initial conc. Fe3+
initial conc. SCN-
1
5.00
5.00
0
1.00e-3M
1.00E-3M
2
5.00
4.00
1.00
1.00E-3M
8.00E-3M
3
5.00
3.00
2.00
1.00E-3,
6.00E-3M
4
5.00
2.00
3.00
1.00E-3M
4.00E-3M
5
5.00
1.00
4.00
1.00E-3M
2.00E-3M
10ml of 0.200M Fe3+, 2.00ml of 0.00200M SCN-, AND 8.00ml of
water results in an eq. [FeSCN2+] IN Standard
Soln.:2.00E-4M
Could you please explain how...
Fe (aq)SCN-(aq) FeSCN (aq) thiocyanate iron(II) thiocyanoiron(il) Introduction When the reactants shown above, are combined, chemical equilibrium is reached rapidly. Once equilibrium is established, the equilibrium constant can be calculated if the concentration of all the ions are known: [FeSCNP.he [SCN-... and (Feng Your task is to prepare three different equilibrium systems that contain different concentrations of these ions. Keep in mind that although the concentrations will be different, the value of the equilibrium constant Ke will be indeed constant...
Calculate [Fe3+] and [SCN-] for each of the nine trials. Show
the calculations for Sample 1
calibration curve is y=3967.7x-0.0822
the R^2 value is y=0.09959
Solution [SCN-1 2.06764 Stock solution B Absorbance Dilution 1 (50.0%) 1.0 xl-4 0.723 Dilution 2 (25.0%) S.Oxon Dilution 3 (12.5%) 2.5X2.5 (FeSCN2+). 2.0 X10" 1.0X10-4M 5.0x105m 2.5x105m 0.289 1o.lll 10.036 Calibration curve trendline equation Y 3967.7% -0.0823 R2 value of trendline R 0.99 se Sample Number 0.0020 M Fe(NO2), (ml) 0.0020 M KSCN (mL) 8...
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...
help with calculating the “initial [SCN^—]” M and the Equilibrium
[Fe(SCN^2+)] M.
i
have one. just not sure how to set up the equation to find the
inital [SCN^-] . not sure if im calculating it correctly.
Data Manipulation and Calculations Calibration Solutions Data 1. Calculate the "Initial [SCN']" molarities for the solutions using the dilution equation CiVI=C2V2 2. Use the net ionic equation for the reaction, the ratio of [Fe3 [SCN'] used, and your knowledge of Le Châtelier's Principle...
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