[Modified] A compound with molecular mass 427.35 g/mol was dissolved in a 5-mL volumetric flask. A 1.00-mL aliquot was withdrawn, placed in a 10-mL volumetric flask, and diluted to the mark. The absorbance at 340 nm was 0.431 in a 1.000-cm cuvet. The molar absorptivity at 340 nm is 340 = 6220 M-1-cm-1. (a) Calculate the concentration of compound in the cuvet. 4.0 6.93e-5 M (b) What was the concentration of compound in the 5-mL flask? 96.93e-4 M (c) How many milligrams of compound were used to make the 5-mL solution? 4.0 1.47 mg

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[Modified] A compound with molecular mass 427.35 g/mol was dissolved in a 5-mL volumetric flask. A 1.00-mL aliquot was withdrawn, placed in a 10-mL volumetric flask, and diluted to the
mark. The absorbance at 340 nm was 0.431 in a 1.000-cm cuvet. The molar absorptivity at 340 nm is £340 = 6220 M-1.cm-1.
(a) Calculate the concentration of compound in the cuvet.
4.0 6.93e-5
M
(b) What was the concentration of compound in the 5-mL flask?
4.0 6.93e-4
M
(c) How many milligrams of compound were used to make the 5-mL solution?
4.0 1.47
mg
Transcribed Image Text:[Modified] A compound with molecular mass 427.35 g/mol was dissolved in a 5-mL volumetric flask. A 1.00-mL aliquot was withdrawn, placed in a 10-mL volumetric flask, and diluted to the mark. The absorbance at 340 nm was 0.431 in a 1.000-cm cuvet. The molar absorptivity at 340 nm is £340 = 6220 M-1.cm-1. (a) Calculate the concentration of compound in the cuvet. 4.0 6.93e-5 M (b) What was the concentration of compound in the 5-mL flask? 4.0 6.93e-4 M (c) How many milligrams of compound were used to make the 5-mL solution? 4.0 1.47 mg
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