Determining Equilibrium Constant for Thiocyanatoiron

Objective
Determine the equilibrium constant K_c for the chemical reaction:

Fe³⁺(aq) + SCN^–(aq) ß à FeSCN²⁺(aq)

Procedure

(1)  Calibrate the colorimeter.

(2)  Prepare five test tubes with the designated solutions:

(3)  Measure each solution using the colorimeter and computer software.

(4)  Record an observation of the solution temperature.

(5)  Calculate the average equilibrium constant for the reaction being studied, using the 5^th test as the standard solution.

Result Sheet

Sample Calculations

1. [Fe³⁺]_i and [SCN^–]_i @ Trial 1

[Fe³⁺]_i= 0.0020M Fe(NO₃)₃ x (5ml/10ml) = 0.001M, [SCN^–]_i = 0.0020M KSCN x (2ml/10ml) = 0.0004M

2. [FeSCN²⁺]_std

[FeSCN²⁺]_std = 0.0020M x (2ml/20ml) = 0.0002M

3. [FeSCN²⁺]_eq @ Trial 1

[FeSCN²⁺]_eq= (A_eq/A_std) x [FeSCN²⁺]_std = [(0.032/0.107) x 0.0002M=5.98×10^-5M

4. [Fe³⁺]_eq and [SCN^–]_eq @ Trial 1

[Fe³⁺]_eq= 0.001 – (5.98×10^-5) = 9.4 x 10^-4M , [SCN^–]_eq = 0.0004 – (5.98×10^-5) = 3.4 X 1O^-4M

5. K_C @ Trial 1 (23.5 degrees C)

K_c= [FeSCN²⁺]_eq / [Fe³⁺]_eq [SCN^–]_eq = (5.98×10^-5)/(9.4 x 10^-4)( 3.4 X 1O^-4) = 187.0

6. Average K_c

K_c(avg) = ∑(K_{c(trials 1->n)})/ (n) = (187+97.86+118.79+128.81) / 4 = 133.1

Analysis

In this experiment, the chemical reaction Fe³⁺(aq) + SCN^–(aq) ß à FeSCN²⁺(aq) was studied to determine the equilibrium constant, K_c. To determine this value, the absorptivity of several solutions were recorded using a colorimeter. Inclusion of a standard solution allowed for equilibrium calculations of the reactant and product concentrations. Experimentally, the average constant K_c was calculated at (133.1). Linear analysis of the K_c range has revealed flaws in the first trial. The source of this error is probably due to Ryan’s inaccurate calibration of the colorimeter or poor handling of the solution.