ch 5

Question 1

The smallest particle of an element, which can exist alone or in combination.

Answer 1

Atom

Question 2

A deflagration (explosion) resulting from the sudden introduction of air into a confined space containing oxygen-deficient products of incomplete combustion. (NFPA 1403)

Answer 2

Backdraft

Question 3

A hot, high-volume, high-velocity, turbulent, ultra-dense black smoke that indicates an impending flashover or autoignition.

Answer 3

Black fire

Question 4

An explosion that occurs when pressurized liquefied materials (e.g., propane or butane) inside a closed vessel are exposed to a source of high heat.

Answer 4

Boiling liquid/expanding vapor explosion

Question 5

The temperature at which the vapor pressure of a liquid equals the surrounding atmospheric pressure. (NFPA 1)

Answer 5

Boiling point

Question 6

A colorless, odorless, electrically nonconductive inert gas that is a suitable medium for extinguishing Class B and Class C fires. (NFPA 10)

Answer 6

Carbon dioxide

Question 7

A toxic gas produced through incomplete combustion.

Answer 7

Carbon monoxide

Question 8

Energy that is created or released by the combination or decomposition of chemical compounds.

Answer 8

Chemical energy

Question 9

A fire in ordinary combustible materials, such as wood, cloth, paper, rubber, and many plastics. (NFPA 1, 10)

Answer 9

Class A fire

Question 10

A fire in flammable liquids, combustible liquids, petroleum greases, tars, oils, oil-based paints, solvents, lacquers, alcohols, and flammable gases. (NFPA 1, 10)

Answer 10

Class B fire

Question 11

A fire that involves energized electrical equipment. (NFPA 10)

Answer 11

Class C fire

Question 12

A fire in combustible metals, such as magnesium, titanium, zirconium, sodium, lithium, and potassium. (NFPA 1, 10)

Answer 12

Class D fire

Question 13

A fire in a cooking appliance that involves combustible cooking media (vegetable or animal oils and fats). (NFPA 1, 10)

Answer 13

Class K fire

Question 14

A chemical process of oxidation that occurs at a rate fast enough to produce heat and usually light in the form of either a glow or a flame. (NFPA 1)

Answer 14

Combustion

Question 15

A space completely enclosed by walls and a ceiling. Each wall in this space is permitted to have openings to an adjoining space if the openings have a minimum lintel depth of 8 in. (200 mm) from the ceiling and the total width of the openings in each wall does not exceed 8 ft. (2.4 m). A single opening of 36 in. (900 mm) or less in width without a lintel is permitted when there are no other openings to adjoining spaces. (NFPA 13)

Answer 15

Compartment

Question 16

Heat transfer to another body or within a body by direct contact. (NFPA 921)

Answer 16

Conduction

Question 17

Heat transfer by circulation within a medium such as a gas or a liquid. (NFPA 921)

Answer 17

Convection

Question 18

The stage of fire development within a structure characterized by either a decrease in the fuel load or available oxygen to support combustion, resulting in lower temperatures and lower pressure in the fire area. (NFPA 1410)

Answer 18

Decay stage

Question 19

Heat that is produced by electricity.

Answer 19

Electrical energy

Question 20

Reactions that absorb heat or require heat to be added.

Answer 20

Endothermic

Question 21

Reactions that result in the release of energy in the form of heat.

Answer 21

Exothermic

Question 22

A rapid, persistent chemical reaction that releases both heat and light.

Answer 22

Fire

Question 23

The lowest temperature at which a liquid will ignite and achieve sustained burning when exposed to a test flame in accordance with ASTM D 92, Standard Test Method for Flash and Fire Points by Cleveland Open Cup Tester. (NFPA 1)

Answer 23

Fire point

Question 24

A geometric shape used to depict the four components required for a fire to occur: fuel, oxygen, heat, and chemical chain reactions.

Answer 24

Fire tetrahedron

Question 25

A geometric shape used to depict the three components of which a fire is composed: fuel, oxygen, and heat.

Answer 25

Fire triangle

Question 26

The range in concentration between the lower and upper flammable limits. (NFPA 67)

Answer 26

Flammable range

Question 27

A transition phase in the development of a compartment fire in which surfaces exposed to thermal radiation reach ignition temperature more or less simultaneously, and fire spreads rapidly throughout the space, resulting in full room involvement or total involvement of the compartment or enclosed space. (NFPA 921)

Answer 27

Flashover

Question 28

The minimum temperature at which a liquid or a solid emits vapor sufficient to form an ignitable mixture with air near the surface of the liquid or the solid. (NFPA 115)

Answer 28

Flash point

Question 29

The movement of heat and smoke from the higher pressure within the fire area toward the lower pressure areas accessible via doors, window openings, and roof structures. (NFPA 1410)

Answer 29

Flow path

Question 30

A material that will maintain combustion under specified environmental conditions. (NFPA 53)

Answer 30

Fuel

Question 31

A fire in which the heat release rate and fire growth are controlled by the characteristics of the fuel because there is adequate oxygen available for combustion. (NFPA 1410)

Answer 31

Fuel-limited fire

Question 32

The stage of fire development where heat release rate has reached its peak within a compartment. (NFPA 1410)

Answer 32

Fully developed stage

Question 33

The physical state of a substance that has no shape or volume of its own and will expand to take the shape and volume of the container or enclosure it occupies. (NFPA 921)

Answer 33

Gas

Question 34

The stage of fire development where the heat release rate from an incipient fire has increased to the point where heat transferred from the fire and the combustion products are pyrolyzing adjacent fuel sources and the fire begins to spread across the ceiling of the fire compartment (rollover). (NFPA 1410)

Answer 34

Growth stage

Question 35

The measure of the rate of heat transfer to a surface, typically expressed in kilowatts per meter squared (kW/M2) or Btu/ft2
(NFPA 268)

**note that the cards do not show super scripts.
⊻ = superscript number.
Meters Squared = m⊻ 2
Square Feet - m⊻ 2

Answer 35

Heat Flux

Question 36

The rate at which heat energy is generated by burning. (NFPA 921)

Answer 36

Heat release rate

Question 37

The movement of heat energy from a hotter medium to a cooler medium by conduction, convection, or radiation.

Answer 37

Heat transfer

Question 38

An extremely toxic gas produced by the combustion of many common plastic-based materials. Low-level exposure can cause cyanosis, headache, dizziness, unsteady gait, and nausea.

Answer 38

Hydrogen cyanide

Question 39

The action of setting something on fire.

Answer 39

Ignition

Question 40

Minimum temperature a substance should attain in order to ignite under specific test conditions. (NFPA 402)

Answer 40

Ignition temperature

Question 41

The early stage of fire development where the fire’s progression is limited to a fuel source and the thermal hazard is localized to the area of the burning material. (NFPA 1410)

Answer 41

Incipient stage

Question 42

A burning process in which the fuel is not completely consumed, usually due to a limited supply of oxygen.

Answer 42

Incomplete combustion

Question 43

Smooth or streamlined movement of smoke, which indicates that the pressure in the building is not excessively high.

Answer 43

Laminar smoke flow

Question 44

A fluid (such as water) that has no independent shape but has a definite volume and does not expand indefinitely and that is only slightly compressible.

Answer 44

Liquid

Question 45

The minimum concentration of a combustible vapor or combustible gas in a mixture of the vapor or gas and gaseous oxidant, above which propagation of flame will occur on contact with an ignition source. (NFPA 115)

Answer 45

Lower explosive limit

Question 46

A form of potential energy that can generate heat through friction.

Answer 46

Mechanical energy

Question 47

The interface at a vent, such as a doorway or a window opening, between the hot gas flowing out of a fire compartment and the cool air flowing into the compartment where the pressure difference between the interior and exterior is equal.

Answer 47

Neutral plane

Question 48

Reaction with oxygen either in the form of the element or in the form of one of its compounds. (NFPA 53)

Answer 48

Oxidation

Question 49

A chemical agent that causes severe pulmonary damage; it is a by-product of incomplete combustion.

Answer 49

Phosgene

Question 50

The column of hot gases, flames, and smoke rising above a fire; also called convection column, thermal updraft, or thermal column. (NFPA 921)

Answer 50

Plume

Question 51

A process in which material is decomposed, or broken down, into simpler molecular compounds by the effects of heat alone; it often precedes combustion. (NFPA 921)

Answer 51

Pyrolysis

Question 52

The combined process of emission, transmission, and absorption of energy traveling by electromagnetic wave propagation (e.g., infrared) between a region of higher temperature and a region of lower temperature. (NFPA 550)

Answer 52

Radiation

Question 53

The condition in which unburned fuel (pyrolysate) from the originating fire has accumulated in the ceiling layer to a sufficient concentration (i.e., at or above the lower flammable limit) that it ignites and burns. This can occur without ignition of, or prior to the ignition of, other fuels separate from the origin; also known as flameover. (NFPA 921)

Answer 53

Rollover

Question 54

The airborne solid and liquid particulates and gases evolved when a material undergoes pyrolysis or combustion, together with the quantity of air that is entrained or otherwise mixed into the mass. (NFPA 1404)

Answer 54

Smoke

Question 55

The attribute of smoke that reflects the stage of burning of a fire and the material that is burning in the fire.

Answer 55

Smoke color

Question 56

The thickness of smoke.
Because it has a high mass per unit volume, smoke is difficult to see through.

Answer 56

Smoke density

Question 57

A violent release of confined energy that occurs when a mixture of flammable gases and oxygen is present, usually in a void or other area separate from the fire compartment, and comes in contact with a source of ignition. In this situation, there is no change to the ventilation profile, such as an open door or window; rather, it occurs from the travel of smoke within the structure to an ignition source.

Answer 57

Smoke explosion

Question 58

The unburned, partially burned, and completely burned substances found in smoke.

Answer 58

Smoke particles

Question 59

The speed of smoke leaving a burning building.

Answer 59

Smoke velocity

Question 60

The quantity of smoke, which indicates how much fuel is being heated.

Answer 60

Smoke volume

Question 61

One of the three stages of matter; a material that has three dimensions and is firm in substance.

Answer 61

Solid

Question 62

The physical state of a material- solid, liquid, or gas.

Answer 62

State of matter

Question 63

The degree of sensible heat as measured by a thermometer or similar instrument.

Answer 63

Temperature

Question 64

A cylindrical area above a fire in which heated air and gases rise and travel upward.

Answer 64

Thermal Column

Question 65

The stratification (heat layers) that occurs in a room as a result of a fire.

Answer 65

Thermal layering

Question 66

The means by which heat is transferred to other objects.

Answer 66

Thermal radiation

Question 67

Agitated, boiling, angry-movement smoke, which indicates great heat in the burning building. It is a precursor to flashover.

Answer 67

Turbulent smoke flow

Question 68

The maximum amount of gaseous fuel that can be present in the air if the air/fuel mixture is to be flammable or explosive.

Answer 68

Upper explosive limit

Question 69

The weight of an airborne concentration (vapor or gas) as compared to an equal volume of dry air.

Answer 69

Vapor density

Question 70

A fire in which the heat release rate and fire growth are regulated by the available oxygen within the space. (NFPA 1410)

Answer 70

Ventilation-limited fire

Question 71

The ability of a substance to produce combustible vapors.

Answer 71

Volatility