28. Solving a chemistry problem
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55th century The test solution contains an intensely colored complex compound of the metal cation M2 with an organic reagent with a concentration of the metal cation C(M2)=5.00*10-5 mol/l. Based on the results of measuring the optical density A of the test solution at different wavelengths λ in a cell with an absorbing layer thickness of 2.00 cm (option a), 1.00 cm (options b, c, d), plot the absorption spectrum of this complex compound in the coordinates A-λ, nm.
Choose an analytical wavelength for determining the metal cation by the spectrophotometric method by the light absorption of its complex compound. At the chosen wavelength, calculate the molar extinction ratio of the complex compound in solution in terms of the metal cation.
Wavelength, nm 350 355 360 365 370 380 390 400 410 420 430 435 440 450 460 470 480 490
Optical density 0.090 - 0.085 - 0.075 0.085 0.110 0.190 0.325 0.460 0.600 0.635 0.630 0.575 0.475 0.360 0.257 0.122 0.165
Choose an analytical wavelength for determining the metal cation by the spectrophotometric method by the light absorption of its complex compound. At the chosen wavelength, calculate the molar extinction ratio of the complex compound in solution in terms of the metal cation.
Wavelength, nm 350 355 360 365 370 380 390 400 410 420 430 435 440 450 460 470 480 490
Optical density 0.090 - 0.085 - 0.075 0.085 0.110 0.190 0.325 0.460 0.600 0.635 0.630 0.575 0.475 0.360 0.257 0.122 0.165
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- Content type File
- Content description 40,09 kB
- Added to the site 21.04.2023
Additional description
If you do not open the file - install the RAR archiver. Inside the archive you will find a solution in Word format.
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28. Solving a chemistry problem
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