P23-27: Molar absorptivity data for the cobalt and nickel complexes with 2,3- qu
ID: 958683 • Letter: P
Question
P23-27: Molar absorptivity data for the cobalt and nickel complexes with 2,3-
quinoxalinedithiol are Co = 36,400 and Ni = 5520 at 510 nm and Co = 1240 and Ni = 17,500 at 656 nm. A 0.425-g sample was dissolved and diluted to 50.0 mL. A 25.0-mL aliquot was treated to eliminate interferences; after addition of 2,3quinoxalinedithiol, the volume was adjusted to 50.0 mL. This solution had an absorbance of 0.446 at 510 nm and 0.326 at 656 nm in a 1.00-cm cell. Calculate the parts per million of cobalt and nickel in the sample.
Explanation / Answer
At 510 nm Co absorbs strongly, According to Beer's law:
Absorption, A = cl
or, 0.446 = 36400 M-1.cm-1 * c * 1 cm
or, concentration, c = 1.23*10-5 M
So, the concentration of Co in the final 50 mL solution = 1.23*10-5 M
Amount of Co in the final 50 mL solution = 1.23*10-5 moles * 50 mL /1000 mL = 6.13*10-7 moles
This amount of Co is also present in the 25 mL aliquot taken.
And amount of Co present in the initial 50 mL solution (made from dissolution of 0.425 g sample)
= 6.13*10-7 moles * 2
= 1.23*10-6 moles
= (1.23*10-6 moles * molar mass of Co) g
= 1.23*10-6 * 58.93 g
= 7.25 * 10-5 g
Co present in the sample
= (7.25 * 10-5 g / 0.425 g) * 106
= 170.55 ppm
At 656 nm Ni absorbs strongly, According to Beer's law:
Absorption, A = cl
or, 0.326= 17500 M-1.cm-1 * c * 1 cm
or, concentration, c = 1.86*10-5 M
So, the concentration of Ni in the final 50 mL solution = 1.86*10-5 M
Amount of Ni in the final 50 mL solution = 1.86*10-5 moles * 50 mL /1000 mL = 9.31*10-7 moles
This amount of Ni is also present in the 25 mL aliquot taken.
And amount of Ni present in the initial 50 mL solution (made from dissolution of 0.425 g sample)
= 9.31*10-7 moles * 2
= 1.86*10-6 moles
= (1.86*10-6 moles * molar mass of Ni) g
= 1.86*10-6 * 58.69 g
= 1.09 * 10-4 g
Ni present in the sample
= (1.09 * 10-4 g / 0.425 g) * 106
= 256.47 ppm
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