Chapter 13

Question 1

13-1. Express the following absorbances in terms of percent transmittance:
(a) O.038

(b) 0.958
(c) 0.399

Answer 1

(a) %T = 10^–A × 100%

             = 10<sup>–0.038</sup>  × 100%

= 91.6%

Proceeding in the same way, we obtain

(b) 11.0%
(c) 39.9%

Question 2

13-2 Convert the following transmittance data to absorbances:
(a) 15.8%

(b) 0.492
(c) 39.4%

Answer 2

(a) A = – log T

                 = – log (15.8/100)

 = 0.801

Proceeding in the same way, we obtain
(b) 0.308

(c) 0.405

Question 3

*13-3 Calculate the percent transmittance of solutions having half the absorbance of the solutions in Problem 13-1.

13-1 Problems

T=

(a) O.038
(b) 0.958
(c) 0.399

Answer 3

(a) %T = 10^–0.038/2 × 100% = 95.7%

Similarly,

(b) 33.2%
(c) 63.2%

Question 4

*13-4 Calculate the absorbance of solutions having twice the percent transmittance of those in Problem 13-2.

Problem 13-2

T=

(a) 15.8%
(b) 0.492
(c) 39.4%

Answer 4

(a) A = – log (2 × 15.8/100) = 0.500

Similarly,

(b) 0.007
(c) 0.103

Question 5

13-6. A solution containing 5.24 mg/1OO mL of A (335 g/mol) has a transmittance of 55.2% in a 1.50-cm cell at 425 nm. Calculate the molar absorptivity of A at this wavelength.

Answer 5

Question 6

*13-7 A solution containing the complex formed hetween Bi( III) and thiourea has a molar absorptivity of 9.32x10³ Lmol^-1cm^-1 at470 nm.

(a) What is the absorbance of a 3.79 x 10^-5 M solution of the complex at 470 nm in a I.00-cm cell?
(b) What is the percent transmittance of the solution described in (a)?
(c) What is the molar concentration of the complex in a solution that has the absorbance descrihed in (a) when measured at 470 nm in a 2.50-cm cell?

Answer 6

Question 7

Answer 7

Question 8

Define Dark Current

T d c i t s c t e i a r t i t a o r.

Answer 8

T d c i t s c t e i a r t i t a o r.

The dark current is the small current that exists in a radiation transducer in the absence of radiation.

Question 9

Define transducer

A t i a e c t c a p o c q i a e s.

Answer 9

A t i a e c t c a p o c q i a e s.

A transducer is an electronic component that converts a physical or chemical quantity into an electrical signal.

Question 10

Define scattered radiation (in a monochromator)

S r i r t e t e s o a m a a r o s.

Answer 10

S r i r t e t e s o a m a a r o s.

Scattered radiation is radiation that enters the entrance slit of a monochromator as a result of scattering.

Question 11

Define source flicker noise

S f n i f n i t r s. I i u c b v i e v t c t s i (p s v, t e.)

Answer 11

S f n i f n i t r s. I i u c b v i e v t c t s i (p s v, t e.)

Source flicker noise is flicker noise in the radiation source. It is usually caused by variation in experimental variables that control the source intensity (power supply voltage, temperature etc.)

Question 12

Define cell positioning uncertainty.

C p u i t e a w t i t p t c i e t s p f e e.

Answer 12

C p u i t e a w t i t p t c i e t s p f e e.

Cell positioning uncertainty is the error associated with the inability to position the cell in exactly the same position for each experiment.

Question 13

Define beamsplitter

A b s i a o c t d t r i t b o o w i s t t s a t o t r.

Answer 13

A b s i a o c t d t r i t b o o w i s t t s a t o t r.

A beam splitter is an optical component that divides the radiation into two beams one of which is sent through the sample and the other the reference.