Molar concentration of the dye stock solution: 2.52e-5 mol/L Solutions(Dilutions) Absorbance (A)(a.u.) 1 0.086 2 0.179 3 0.366 4 0.532 Solution 1: 1.00 mL of Blue#1 Stock Solution and 19.00 mL of distilled water Solution 2: 2.00 mL of Blue#1 Stock Solution and 18.00 mL of distilled water Solution 3: 4.00 mL of Blue#1 Stock Solution and 16.00 mL of distilled water Solution 4: 8.00 mL of Blue#1 Stock Solution and 12.00 mL of distilled water Using linear regression determine the absorbance/concentration relationship for the dye. [dye] = x A I got 0.00001920x but the answer is wrong can someone please help?
Molar concentration of the dye stock solution: 2.52e-5 mol/L Solutions(Dilutions) Absorbance (A)(a.u.) 1 0.086 2 0.179 3 0.366 4 0.532 Solution 1: 1.00 mL of Blue#1 Stock Solution and 19.00 mL of distilled water Solution 2: 2.00 mL of Blue#1 Stock Solution and 18.00 mL of distilled water Solution 3: 4.00 mL of Blue#1 Stock Solution and 16.00 mL of distilled water Solution 4: 8.00 mL of Blue#1 Stock Solution and 12.00 mL of distilled water Using linear regression determine the absorbance/concentration relationship for the dye. [dye] = x A I got 0.00001920x but the answer is wrong can someone please help?
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Molar concentration of the dye stock solution: 2.52e-5 mol/L
| Solutions (Dilutions) |
Absorbance (A) (a.u.) |
|---|---|
| 1 | 0.086 |
| 2 | 0.179 |
| 3 | 0.366 |
| 4 | 0.532 |
Solution 1: 1.00 mL of Blue#1 Stock Solution and 19.00 mL of distilled water
Solution 2: 2.00 mL of Blue#1 Stock Solution and 18.00 mL of distilled water
Solution 3: 4.00 mL of Blue#1 Stock Solution and 16.00 mL of distilled water
Solution 4: 8.00 mL of Blue#1 Stock Solution and 12.00 mL of distilled water
Using linear regression determine the absorbance/concentration relationship for the dye.
[dye] = x A
I got 0.00001920x but the answer is wrong can someone please help?
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