What information is needed to determine the concentration of an unknown sample using spectroscopy? Group of answer choices A. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a wavelength scan and path length based on the length of the cuvette.
What information is needed to determine the concentration of an unknown sample using spectroscopy? Group of answer choices A. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a wavelength scan and path length based on the length of the cuvette.
Physical Chemistry
2nd Edition
ISBN:9781133958437
Author:Ball, David W. (david Warren), BAER, Tomas
Publisher:Ball, David W. (david Warren), BAER, Tomas
Chapter15: Introduction To Electronic Spectroscopy And Structure
Section: Chapter Questions
Problem 15.69E
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Question
What information is needed to determine the concentration of an unknown sample using spectroscopy?
Group of answer choices
A. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a wavelength scan and path length based on the length of the cuvette.
B. Molar extinction coefficient derived from a wavelength scan, optimal wavelength determined from a wavelength scan and path length based on the length of the cuvette.
C. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a standard curve and path length based on distance from light source to detector.
D. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a wavelength scan and path length based on distance from light source to detector.
E. Molar extinction coefficient derived from a standard curve, optimal wavelength determined from a standard curve and path length based on the length of the cuvette.
F. Molar extinction coefficient derived from a wavelength scan, optimal wavelength determined from a wavelength scan and path length based on distance from light source to detector.
G. Molar extinction coefficient derived from a wavelength scan, optimal wavelength determined from a standard curve and path length based on the length of the cuvette.
H. Molar extinction coefficient derived from a wavelength scan, optimal wavelength determined from a standard curve and path length based on distance from light source to detector.
please answer with letter it can only one
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