Login Registrieren

Warning: foreach() argument must be of type array|object, bool given in /var/www/html/web/app/themes/studypress-core-theme/template-parts/header/mobile-offcanvas.php on line 20

Chapter 20: Q20BE (page 524)

The true absorbance of a sample is 1.000, but the mono chromator passes 1.0% stray light. Add the light coming through the sample to the stray light to find the apparent transmittance of the sample. Convert this answer back into absorbance and find the relative error in the calculated concentration of the sample.

Short Answer

Expert verified

The absorbance is .

Step by step solution

01

Calculate the apparent Transmittence:

Given,

The true absorbance of a sample is 1.000, but 1.0 % stray light reaches the detector.

The apparent transmittance can be calculated as

True transmittance $= 10^{- 1.000} = 0.100$ with 1.0 % stray light, the apparent transmittance is

$\frac{P + S}{P_{0} + S} = \frac{0.100 + 0.10}{1 + 0.010} = \frac{0.11}{1.01} = 0.1089$

02

Step:2 Apparent absorbence:

The apparent absorbance can be calculated using -log T

-log0.1089

= 0.9629

Unlock Step-by-Step Solutions & Ace Your Exams!

Full Textbook Solutions
Get detailed explanations and key concepts
Unlimited Al creation
Al flashcards, explanations, exams and more...
Ads-free access
To over 500 millions flashcards
Money-back guarantee
We refund you if you fail your exam.

Start your free trial

Over 30 million students worldwide already upgrade their learning with Vaia!

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

Which variables increase the resolution of a grating? Which variables increase the dispersion of the grating? How is the blaze angle chosen to optimize a grating for a particular wavelength?

Here is an extremely sensitive method for measuring nitrite () down to in natural waters. The water sample is treated with sulfanilamide and N-(1-naphthylethylenediamine) in acid solution to produce a colored product with a molar absorptivity of $4.5 \times 10^{4} M^{- 1} {cm}^{- 1}$ at 540 nm. The colored solution is pumped into a 4.5-meter-long, coiled Teflon tube whose fluorocarbon wall has a refractive index of 1.29. The aqueous solution inside the tube has a refractive index near 1.33. The colored solution is pumped through the coiled tube. An optical fiber delivers white light into one end of the tube, and an optical fiber at the other end leads to a polychromator and detector.

(a) Explain the purpose of the coiled Teflon tube and explain how it functions.

(b) What is the critical angle of incidence for total internal reflection at the Teflon/water interface?

(c) What is the predicted absorbance of a $1.0 nM$ solution of colored reagent?

(a) In the cavity ring-down measurement at the opening of this chapter, absorbance is given by $A = \frac{L}{cln 10} (\frac{1}{τ} - \frac{1}{τ_{0}})$ whereis the length of the triangular path in the cavity, Cis the speed of light, Tis the ring-down lifetime with sample in the cavity, and $T_{0}$ is the ring-down lifetime with no sample in the cavity. Ring-down lifetime is obtained by fitting the observed ring-down signal intensityto an exponential decay of the form $l = l_{0} e^{- yτ}$ , whereis the initial intensity and t is time. A measurement ofis made at a wavelength absorbed by the molecule. The ring-down lifetime for 21.0-cm-1 along empty cavity is $18.52 μs$ and $18.52 μs$ for a cavity containing.role="math" localid="1664865078479" ${CO}_{2}$ Find the absorbance of ${CO}_{2}$ at this wavelength.

(b) The ring-down spectrum below arises from ${}^{13}{CH}_{4}$ and ${}^{12}{CH}_{4}$ from $1.9 ppm (vol / yol)$ of methane in outdoor air at 0.13. The spectrum arises from individual rotational transitions of the ground vibrational state to a second excited C-H)vibrational state of the molecule. (i) Explain what quantity is plotted on the ordinate ( Y-axis). (ii) The peak for ${}^{12}{CH}_{4}$ is at $6046.9546 {cm}^{- 1}$ . What is the wavelength of this peak in? What is the name of the spectral region where this peak is found?

The prism shown here is used to totally reflect light at a $90 °$ angle. No surface of this prism is silvered. Use Snell's law to explain why total reflection occurs. What is the minimum refractive index of the prism for total reflection?

Explain how beam chopping reduces line noise and noise from source drift.

See all solutions

Recommended explanations on Chemistry Textbooks

Making Measurements

Read Explanation

Kinetics

Read Explanation

Ionic and Molecular Compounds

Read Explanation

Chemistry Branches

Read Explanation

Physical Chemistry

Read Explanation

Chemical Analysis

Read Explanation

View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.

Sign-up for free