Unit 3

Question 1

T/F- Reagents in colorimetric tubes are designed to change to a specific color when exposed to a specific chemical.

Answer 1

True

Question 2

T/F- Colorimetric tubes have an expiration date.

Answer 2

True

Question 3

T/F- Reagents in colorimetric tubes will only change color when exposed the chemical they are designed to detect.

Answer 3

False

Question 4

T/F- Reagents in colorimetric tubes can change an unexpected color when exposed to a chemical it might be cross sensitive to.

Answer 4

True

Question 5

Name things that will contaminate a combustible gas detector.

Answer 5

Corrosive gases; liquids aspirated into the detector; silicone

Question 6

T/F- A combustible gas detector can function properly in all types of atmospheres.

Answer 6

False

Question 7

In order for the proper operation of a combustible gas detector the oxygen levels in the sampled atmosphere must be:

A.) Oxygen levels don’t matter

B.) The minimum oxygen levels varies from manufacturer to manufacturer

Answer 7

B.) The minimum oxygen levels varies from manufacturer to manufacturer

Question 8

What will too high or too low oxygen levels in the sampled atmosphere do to the readings of the combustible gas meter?

A.) Give more accurate readings

B.) Give incorrect readings

Answer 8

B.) Give incorrect readings

Question 9

What pH readings when read from a pH meter should be concerning?

Answer 9

Less than 2 (<2) and greater than 12.5 (>12.5)

Question 10

The presence of which chemicals will give a false elevated oxygen reading?

Answer 10

Chlorine, Oxidizing chemicals

Question 11

When a meter is set to parts per million (ppm) or parts per billion (ppb) the lowest reading you can get is?

Answer 11

1

Question 12

pH paper is used to indicate the approximate strength of?

Answer 12

Acids and Bases

Question 13

What types of chemical detection devices can be used to determine explosive atmospheres?

Answer 13

OVA- Organic Vapor Analyzer

PID- Photo Ionization Detector

Wheatstone Bridge Circuit (Traditional CGI)

Question 14

1% by volume equals how much parts per million (ppm)

Answer 14

10,000 ppm

Question 15

1% by volume equals how much parts per billion (ppb)

Answer 15

10,000,000 ppb

Question 16

For an indoor natural gas release at what LEL threshold should you delineate your hotzone?

Answer 16

10% LEL

Question 17

For an outdoor natural gas release at what LEL threshold should you delineate your hotzone?

Answer 17

20% LEL

Question 18

Can Carbon Dioxide influence oxygen detected by oxygen detectors? Explain your answer.

Answer 18

Yes. High concentrations of carbon dioxide, or any other gas given the right situation, can physically displace the oxygen available in the area.

Question 19

Does atmospheric pressure influence the amount of oxygen a oxygen detector sees?

Please explain.

Answer 19

Yes. Above sea level the atmosperic pressure begins to drop and as the atmospheric pressure drops the air becomes thinner so a oxygen detector will see less oxygen molecules passing in front of it.

Question 20

Define Vapor Density

Answer 20

The weight of vapor contained in a container when compared to the weight of dry air in a container of similar volume.

Question 21

Should the atmospheres of confined spaces be monitored prior to and during entry? Explain your answer.

Answer 21

Yes. For life safety reasons confined spaces should be monitored for several hazards including explosive, asphyxiant and toxic gases.

Question 22

Can a carbon monoxide detector be used to determine the identity of a liquid product?

Answer 22

No

Question 23

Which detection methods might be used to detect nerve agents?

Answer 23

M8/M9 paper

Surface Acoustic Wave (SAW)

Question 24

What is the first priority of monitoring?

Answer 24

Safety

Question 25

What is the first hazard a haz mat technician samples for?

Answer 25

Radioactivity

Question 26

What are the radiation limits found at 1 meter from the outer package surface for the three levels of radioactive materials with intact packages and the associated color of their labels?

Answer 26

Level I = Almost none at 1 m; 0.5 mrem/hr @ surface, White label

Level II = max. 1 mrem/Hr @ 1 m; 50 mrem/hr @ surface, Yellow label

Level III = max. 10 mrem/Hr @ 1 m; 200 mrem/hr @ surface, Yellow label

Question 27

Explain correction factor or relative response as it pertains to calibration gas for a combustible gas instrument (CGI).

Answer 27

The correction factor of a calibration gas is the ratio of how much hotter or colder a flammable gas burns in reference to the known calibration gas used on the instrument. This ratio can then be used to determine the percent of flammable gas that is present in the atmosphere being sampled.

Question 28

T/F- Colorimetric tubes have a high margin of error.

Answer 28

True; +/- 25-30%

Question 29

T/F- Colorimetric tubes are not designed to measure concentrations below 10,000 ppm

Answer 29

False

Question 30

This method of detection consists of numerous piezoelectric crystals coated with a polymer film that specifically absorbs a particular class of volatile compound. The absorption of these volatile compounds to their specific piezoelectric crystal cause that crystal to vibrate differently than it normally would. By monitoring the vibrational changes across the different array of crystals a chemical pattern or fingerprint can be detected and used to identify the compound.

Answer 30

Surface Acoustic Wave (SAW)

Question 31

In regards to radiatioactive packaging explain transport index (TI).

Answer 31

Transport index (TI) is the maximum radiation level in mrem/hr at a distance of one meter from the intact surface of the package.

EX: for a package with a TI of 3 the maximum radiation intensity that hould be measured 1 meter from the intact surface of the box should be 3 mrem/hr. A higher value indicates that contents may have shifted, shielding breached or an error in labeling the package may have occurred

Question 32

This detector works by exposing the gas sample stream to an ultraviolet light of a wavelength with sufficient energy to ionize an agent molecule. If ionizable agents are present in the gas they become ionized. An ion detector then registers a voltage proportional to the number of ions produced and thus the concentration of the agent.

Answer 32

Photo Ionization Detector (PID)

Question 33

This general purpose detector is used to determine the presence of volatile carbon-based compounds that are incinerated in a hydrogen-oxygen flame. When a carbonaceous compound burns an increase in the flames baseline ion current occurs and detection of a compound occurs. Unfortunately when used alone this detector is not specific and only detects the presence of a volatile carbonaceous compound.

Answer 33

Flame Ionization Detector (FID)

Question 34

This detection system measures the absorbtion of infrared light by a sample. Different wavelengths of infrared light are absorbed by different chemical bonds as well as the stretching and bending of those chemical bonds. The different wavelengths absorbed and the amount of energy absorbed graphed provides a spectrum that can be used to identify chemical compounds.

Answer 34

Infrared Spectroscopy

Question 35

This detection system uses a hydrogen flame to burn volatile chemical agents present in air. Compounds that contain phosphorous and sulfur produce hydrogen phosphorous oxygen (HPO) and elemental sulfur (S) respectively. At the elevated flame temperature the phosporous and sulfur emit light of specific wavelengths. These wavelengths are then detected and their intensity relates to their overall and relative concentration. This is important because the classical nerve agents all contain sulfur and phosphorous and this detection system allows for rapid detection.

Answer 35

Flame Photometry

Question 36

This detection system ionizes components in air and passes them through a weak electric field toward and ion detector. The time it takes the ion to traverse the distance to the detector is proportional to the mass of the ionized chemical species and is used as a means of identification.

Answer 36

Ionization/Ion Mobility Spectrometry (IMS)