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A Chemistry Experiment is done by following a given procedure. This is a report. |
Chemistry Lab Report Student Name: Instructor: Date: Abstract The concentration of unknown solutions can be determined by following a series of Spectrophotometric steps of a simple procedure, followed by data analysis. in which a series of steps are followed Lab #1 experiment (Absorption spectrum) was aimed at constructing an absorption spectrum starting at 380nm, from which the maximum absorption was determined and tabulated. In Lab Exercise #2 (Preparation of Standard Curve), the same solution was used, and the wavelength of Amax determined was set. The Absorbance was measured and recorded against the concentration, and a graph was plotted using excel. The concentration of the unknown values was determined from the data, and the molar extinction coefficient was calculated. Introduction An absorption spectrum is a spectrum in which a drop in radiation intensity at particular wavelengths indicative of an absorbing substance appears as a pattern of dark lines or bands. UV-V and electronic spectrum is another name for the absorption spectrum. According to Beer-Law, Lambert's sample path length and sample concentration are proportional to the light absorption for a given material. *******************************(Hidden info) Materials and Methods In the first experiment (Absorption spectrum), the mid-range of a colored solution's concentration was chosen. A 1cm diameter tube and a starting wavelength of 380nm in the variable mode absorbance values were read and recorded as A value in worksheet#1. *******************************(Hidden info) Results of the experiment Slope and two unknown samples were determined. In the first experiment, the Absorbance showed a rapid increase from 0.35 to a peak of 0.95, after which *******************************(Hidden info) . In the second experiment, the intercept at Y-axis occurred at 0.24 in a linear plot. The tables and figures are attached below: Results Tables and Graphs Worksheet #1: Absorbance Spectrum readings Wavelengths (nm) Absorbance Wavelengths (nm) Absorbance 380 0.35 590 0.01 390 0.57 600 0.01 400 0.81 610 0.01 410 0.95 620 0.01 *******************************(Hidden info) Figure 1 - Table of data for Absorption Spectrum (Worksheet 1) Worksheet #2: Standard Curve Readings Concentration Absorbance 1 0 0.24 2 50 0.48 3 100 0.71 4 150 0.95 *******************************(Hidden info) Figure 2 - Table of data for Standard Curve (Worksheet 2) Figure 3 - Absorption spectrum plot 1 Figure 4 – Standard curve graph 1 Calculations The concentration of unknown solutions (UK1 and UK 2) Using Excel, Y410nm = 0.004X + 0.24 which is because m = 0.004 Y = Absorbance *******************************(Hidden info) Molar extinction coefficient The extinction coefficient measures how strongly a molecular species absorbs light at a given wavelength E: extinction coefficient (liters/mole x cm) A = Ecl this can be changed to E = A/cl Where E is the extinction coefficient (liters/mole x cm) A is an absorbance point L is distance travelled by light through solution in cm. In this case, it is 1cm. C is the Molar concentration that corresponds to "A." *******************************(Hidden info) Discussion The Amax values in our Lab #1 experiment were 0.95 at a wavelength of 410nm. This being K2Cr207, it forms an equation of A410 = 0.004X + 0.24 whereas a reference record shows an equation of A350 = 0.4875m - 0.0002. *******************************(Hidden info) BIBLIOGRAPHY |
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