Using data from Table 1 plot a graph similar to Figure 4 in the manual that you will label as “Figure A - Bromophenol Blue Stock Solution Absorbance Spectrum”. Remember all graphs need x-y-axis labels and titles. Plot the graph of order 2 polynomial as the best fit curve. The best-fit curve should show the equation of the line, it does not need to pass through the origin (0,0).

 

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3. Constructing a Standard Curve You will construct a standard curve which shows the linear relationship (according to Lambert-Beer's Law) between absorbance and the concentration for the serial dilution of a given dye/pigment. With this standard curve you can determine the unknown concentration of a sample containing the same dye/ pigment. Figure 4 shows how the concentration of the unknown is determined from a standard curve. To construct a standard curve you need to make a series of solutions of known concentrations through serial dilutions. Metric reminder: 1μL-0.001mL; 1mL=0.001L; 1mg = 0.001g Absorbance 1.2 1 0.8 0.6 0.4 0.2 0 0 0.2 y = 1.155x R² = 0.9297 0.4 0.6 Concentration (mg/ml) Conc. of unknown determined from equation of the best fit line 0.8 1 Figure 4 - Standard curve created from the absorbance data of bromophenol blue solutions of known concentrations. Based on the line plotted from these known solutions, the concentration of the solution of unknown concentration can be determined.

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Table 1 - Absorbance reading for Bromophenol Blue Stock Solution. Wavelength (nm) 475 500 525 550 575 600 625 650 675 Absorbance 0.013 0.014 0.066 0.142 0.272 0.206 0.160 0.033 -0.026 Copy and paste your graph from Table 1 here: Answer these questions: Q1) Wavelength of peak absorbance for Bromophenol Blue is 575 n m Q2) The units for absorbance is_NIA 2