(a)
Interpretation:
Given absorbance value should be converted into percent transmittance.
Concept introduction:
Transmittance (T) of a medium is the fraction of incident radiation transmitted by the medium.
Where,
Po = power of incident beam
P = power of transmitted beam
The relationship between absorbance (
(b)
Interpretation:
Given absorbance value should be converted into percent transmittance.
Concept introduction:
Transmittance (T) of a medium is the fraction of incident radiation transmitted by the medium.
Where,
Po = power of incident beam
P = power of transmitted beam
The relationship between absorbance (
(c)
Interpretation:
Given absorbance value should be converted into percent transmittance.
Concept introduction:
Transmittance (T) of a medium is the fraction of incident radiation transmitted by the medium.
Where,
Po = power of incident beam
P = power of transmitted beam
The relationship between absorbance (
(d)
Interpretation:
Given absorbance value should be converted into percent transmittance.
Concept introduction:
Transmittance (T) of a medium is the fraction of incident radiation transmitted by the medium.
Where,
Po = power of incident beam
P = power of transmitted beam
The relationship between absorbance (
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Chapter 6 Solutions
Principles of Instrumental Analysis
- 1arrow_forward2arrow_forward(d) The Beer-Lambert law states that the absorbance (A) of light by a solution in a cuvette is given by. A = ID==ecL In=-= where lo is the incident light intensity, / is the transmitted light intensity, e is the molar absorptivity, c is the concentration of the solution, and Lis the path length of the cuvette. (1) Light with a wavelength of 800 nm is passed through a cuvette containing a solution of Coumarin dye. After passing through the cuvette, the light intensity was reduced to 10% of its initial value. What is the absorbance of the solution of Coumarin dye? (1) The concentration of the Coumarin dye is 0.004 mol dm3, and the cuvette has a path length of 1 cm. What is the molar absorptivity of Coumarin dye at 800 nm, in units of m² mot¹?arrow_forward
- Atomic refractions: C(sp3): 2.8158; C(sp2): 3.8276; C(sp): 3.8974; H: 0.915. Knowing that the refractive index of benzene is 1.4956 (with the Na line D), indicate the molar volume of benzene.(1). 22.1 cm3/mol (2). 76.6 cm3/mol (3). 97.6 cm3/mol (4). 98.8 cm3/molarrow_forwardstate the relationship between absorbance and transmittancearrow_forwardwhat is the relationship between absorbance and transmittance? kindly explain it brieflyarrow_forward
- C) (A) Which molecule has a chemical formula of C₁0H17CIO OH (C) 4 OH -CI (D) ^ 67. Which bond in this molecule will have a vibrational stretching frequency located at 1,742 cm ¹2 (B) (D) HO H CI OH OH (B) (D)arrow_forwardProve the following identities. (a) [t, p²] = 2ihp (b) [p, ²] = -2ihâarrow_forwardConvert the following transmittance data to absorbance. a) 27.2% b) 0.579% c) 30.6%arrow_forward
- What is main difference between a single beam and a double beam (a) spectrophotometer? (b) What light source would be required for the UV range? (c) What part of a spectrophotometer establishes the analyzing wavelength? What are the 3 transitions that occur in fluorescence?arrow_forward(a) Draw a block diagram of an atomic absorption spectrometer (AAS). Briefly describe the function of each components. (b) What is the process of atomization in atomic absorption spectrometer? Describe the steps of the process in the correct sequence. (c) State TWO interferences that are encountered in atomic absorption spectrometer. Suggest ONE solution to overcome the problem. (d.) What is the main difference, in terms of instrumentation, between atomic absorption spectrometer and atomic emission spectroscopy?arrow_forwardExpress a wavelength of 442 nm as (a) a frequency. (b) a wavenumber.arrow_forward
Principles of Instrumental AnalysisChemistryISBN:9781305577213Author:Douglas A. Skoog, F. James Holler, Stanley R. CrouchPublisher:Cengage Learning
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