Operating wavelength : 439. nm Absorbance of solution 1 - Standard Dichromate-H2O : 0.589 a.u. Absorbance...
Operating wavelength : 439. nm
Absorbance of solution 1 - Standard Dichromate-H2O :
0.589 a.u.
Absorbance of solution 2 - Standard Dichromate-Ethanol (Standard) :
0.437 a.u.
Absorbance of solution 3 - Standard Dichromate-Ethanol (Defendant)
: 0.381 a.u.
Mass of dichromate in Solution 1 : 6.25 mg
II. Calculated data:
Enter the following calculated data from the
calibration of the Breath-Analyzer:
Mass of dichromate in Solution 2 :
Homework Answers
Potassium dichromate produces a yellow solution when dissolved in acidic water solution. An acidic solution of dichromate reacts with ethanol, the Cr(VI) species is reduced to a Cr(III) species, which gives green tint to aqueous solution.
The overall reaction is as follows:
3 CH3CH2OH + Cr2O72– + 8 H+ ===> 3 CH3CHO + 2 Cr3+ + 7 H2O
The decrease in absorbance is associated with the oxidation of ethanol.
From Beer's law
Absorbance, A = ε *c*b = 0.589
we replace c by mass of dichromate :
ε *b = 0.589 / 6.25 mg = 0.09424 mg-1
Absorbance of solution 2 : Standard Dichromate-Ethanol (Standard) = 0.437
thus mass of dichromate in Solution 2 : 0.437 / 0.09424 mg-1 = 4.64 mg
Add Answer to:
Operating wavelength : 439. nm
Absorbance of solution 1 - Standard Dichromate-H2O :
0.589 a.u.
Absorbance...
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I had clearer images.
Part 1 - Making Standard solutions. 1. Into a clean, dry beaker combine the solutions from the table for each calibration solution using the appropriate pipettes. Pour the contents of the beaker into a provided cuvettes (do not fill the cuvettes to the top). Pour any excess from the sample beaker into a waste beaker, rinse the sample beaker, and continue making solutions until you have the blank and four solutions for the calibration. Calibration Solution...
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The corrected absorbance is = Blank - absorbance
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