csn you please solve it for unkoen and make a graph for it based for this table?

please please make a graph (draw it) thank you

Quantitative Analysis of Transition Metal Salts by UV/Vis Spectroscopy 3. Go to the home screen by pressing \&. 4. On the home screen choose Live Display. 5. Set the spectrophotometer to the max which was determined in the Signal Optimization part and press 6. Select the Mode, ABS Note: To avoid cross contamination, rinse the cuvette with three portions of the solution you are planning to use next (each time filling half the cuvette). Start with Dilution\#1. 7. Place your blank cuvette in the cuvette holder, close the lid and press 8. Remove the blank cuvette. Place the cuvette with the Dilution H1. Live measurements will begin automatically displaying the flashing ABS value. 9. Tomake measurements of additional samples, simply put the cuvette with the new sample in the measurement position, close the lid and wait for the displayed value to flash. The flashing ABS value indicates that the measurement has been made. 10. Record the absorbance values in Table 2. Table 2. Absorbance and Concentration Values 11. Calculate concentrations of Dilution Standards using the following formula: M1rV1=M22V2 Where M1 is the concentration of the Standard Stock Solution, V1 is the volume of the Standard Stock Solution (e.g. 2.0mL,4.0mL,6.0mL, and 8.0mL ) used to prepare Dilutionit 14,M2 is the molarity of Dilution 14,V2 is the total volume of Dilution 14 (10.0 mL). Quantitative Analysis of Transition Metal Salts by UV/Vis Spectroscopy 12. Plot the graph Absorbance vs. Concentration. To create the graph title and to label the axes follow the instructions outlined in Part 1, step 10. 13. To obtain the equation for the calibration curve, click on Analyze Linear Fit. The equation of the calibration curve will be displayed. 14. Print the calibration curve in the landscape mode for each group member. 15. From your calibration curve, use the values of m (Slope) and b ( Y-intercept) to find the x (analyte's concentration in your unknown sample). The example below demonstrates this calculation: From the calibration curve depicted above: m (Slope): 4.697 b (Y-intercept): 0.0004694 If the absorbance value of the unknown sample; 0.164AU, then the equation of the line can be used to determine the concentration x of the unknown sample as follows: y=mx+bx=mybx=4.6970.1640.0004694=0.0348M 16. Report the concentration of your unknown sample in Table 2