FITAIN---Talingting

1. is the descriptive term referring to the various methods used to stop, extinguish, and control destructive fire for eventual prevention of loss of life and property.

A) Fire Prevention
B) Fire
C) Fire Protection
D) Protection

2. Is the descriptive term of the various methods or safety measures utilized to prevent harmful or destructive fires from starting.

A) Fire
B) Fire Protection
C) Prevention
D) Fire Prevention

3. He was the English Pharmacist who invented the first match in 1827.(Posporo)

A) Antoine Laviosier
B) Linda walker
C) Thomas Alva Edison
D) John walker

4. A French Chemist who proved in 1777 that burning is the result of the rapid union of oxygen with other substances. As substances burn, heat and light are produced.

A) Antoine Laviosier
B) Thomas Alva Edison
C) John walker

5. An American inventor who was able to send an elective current through a carbon filament (wire) until the filament became so hot that it gave off light.

A) John walker
B) Thomas Alva Edison
C) Antoine Laviosier

6. Is a rapid chemical reaction known as combustion, in which a combustible material reacts with oxygen, producing heat, light, flames, and smoke.

A) Flames
B) Chemical
C) Heat
D) Fire
E) Smoke

7. A form of energy generated by the transmission of some other form of energy, as in combustion or burning.

A) Oxygen
B) Heat
C) Fire
D) Smokes
E) Fuel

8. A colorless, odorless gas and one of the compositions of air which is approximately 21% by volume.

A) Fire
B) Flames
C) Oxygen
D) Heat
E) Smokes

9. A 78% of Oxygen?

A) Oxygen
B) Fire
C) Heat
D) Nitrogen

10. A 21% of Oxygen is?

A) Oxygen
B) Fire
C) Smokes
D) Nitrogen

11. A lower temperature burns of Oxygen requirements.

A) 14%
B) 15%
C) 12%
D) 13%

12. A higher temperature can burn longer.

A) 16%
B) 21%
C) 18%
D) 15%

13. Any substance that reacts chemically with oxygen and produces flames. The most important element of fire.

A) Fire
B) Heat
C) Fuel
D) Oxygen

14. Is the lowest temperature at which a substance can be heated to release vapors that will ignite without the application of a flame or spark.

A) Substance
B) Auto- ignition point
C) Fire triangle theory
D) Free Radicals

15. The lowest temperature at which a substance gives off vapor that burns momentarily (when a flame or spark is applied) is called the

A) Fire
B) Hydrogen Sulfide
C) Flashpoint
D) Flammable

16. When the temperature of a substance is very high, it releases highly combustible vapors known as______?

A) Free Radicals
B) Heat
C) Free wifi
D) Hydrogen Sulfide

17. means easily ignited and capable of burning with great rapidity. A flammable substance is therefore a highly combustible substance.

A) Flammable
B) Fire Prevention
C) Fire
D) Hydrogen Sulfide

18. The graphical representation of the three elements of fire, namely: Oxygen, Heat, and Fuel.

A) Fire protection
B) Fireworks
C) Fires
D) Fire Triangle theory

19. The fourth element of the______ explanation is known as chemical reactivity or chemical reaction.

A) Auto ignition point
B) Tetrahedron
C) Fire triangle
D) Hydrogen

20. Oxidizing agents are those materials that yield oxygen or other oxidizing gases during the process of a chemical reaction.

A) Fire
B) Fuel
C) Heat
D) Oxygen

21. (Reducing Agent) Is the material or substance being burned in the combustion process.

A) Smoke
B) Heat
C) Fuel
D) Fire

22. Is the energy component of the fire tetrahedron. When the heat comes in contact with fuel, the energy supports the combustion process.

A) Heat
B) Fuel
C) Energy
D) Fire

23. manifested by embers

A) Combustion
B) Gas phase combustion
C) Flamming
D) Glowing combustion

24. Manifested by flame.

A) Gas phase combustion
B) Glowing combustion
C) Combustion
D) Gas

25. Represented by the fire TETRAHEDRON, a 4-sided figure with the sides representing fuel, temperature, oxygen, and the uninhibited chemical chain reaction.

A) Flammable
B) Modes
C) Smoldering mode
D) Flamming Mode

26. 100-1500°C?

A) Gas phase
B) Combustion
C) Smoldering mode
D) Flamming Mode

27. 400-600°C?

A) Flammable
B) Flamming Mode
C) Smoldering mode
D) Glowing combustion

28. it is represented by the fire triangle with the 3 sides representing fuel, temperature, and oxygen.

A) Flamming Mode
B) Flammable
C) Surface or Smoldering mode
D) Combustion

29. Are those that remain when other products of combustion cool to normal temperature.

A) Fireworks
B) Fire protection
C) Fire Gases
D) Flame

30. ex. the "rotten egg" smell in sewers, swamps, and natural gas.

A) Hydrogen Chlorine
B) Hydrogen Cyanide
C) Hydrogen Sulfide
D) Hydrogen Chloride

31. ex. toxic byproduct in smoke from burning wool, silk, and certain synthetic fabrics.

A) Hydrogen Sulfide
B) Hydrogen Chloride
C) Hydrogen Cyanide
D) Hydrogen Chlorine

32. ex. use in making hydrochloric acid, a strong acid used for cleaning steel (pickling), producing plastics (like PVC), purifying table salt, and regulating pH in pools or food.

A) Hydrogen Chloride
B) Hydrogen Sulfide
C) Hydrogen Chlorine
D) Hydrogen Cyanide

33. The luminous body of a burning gas gets hotter and less luminous when mixed with more oxygen.

A) Temperature
B) Flame
C) Oxygen
D) Fire

34. A reddish-orange in color;

A) Non-luminous flame
B) Flame
C) Luminous flame
D) Fire

35. A bluish in color.

A) Non-luminous flame
B) Flame
C) Luminous flame
D) Flammable

36. (smooth flame), flame is laminar when a particle follows a smooth path through a gaseous flame.

A) Luminous flame
B) Laminar flame
C) Flame
D) Turbulent flame

37. (rough flame), those have unsteady, irregular swirls and eddie

A) Flame
B) Turbulent flame
C) Laminar flame
D) Non luminous flame

38. A form of energy measured in the degree of temperature;

A) Flame
B) Heat
C) Oxygen
D) Fire

39. It is the visible product of incomplete combustion, usually a mixture of oxygen nitrogen, carbon dioxide, carbon monoxide, finely divided particles of soot and carbon, and a miscellaneous assortment of products released from the burning material.

A) Smoke
B) Fire
C) Flame
D) Heat

40. It refers to the chemical process whereby fire consumes the most solid part of the fuel. It is the thermal decomposition of a solid fuel through the action of heat.

A) Physical properties
B) Fire
C) Pyrolysis
D) Smoke

41. the ratio of the weight of a solid or substance to the weight of an equal volume of water.

A) Temperature
B) Vapor density
C) Specific Gravity
D) Vapor pressure

42. the weight of a volume of pure gas compared to the weight of a volume of dry air at the same temperature and pressure"

A) Vapor pressure
B) Temperature
C) Specific Gravity
D) Vapor density

43. The force exerted by the molecules on the surface of the liquid at equilibrium.

A) Specific Gravity
B) Vapor pressure
C) Vapor density
D) Temperature

44. the measure of the thermal degree of the agitation of molecules of a given substance; the measure of the molecular activity within a substance.

A) Boiling point
B) Flashpoint
C) Temperature
D) Vapor pressure

45. The constant temperature at which the vapor pressure of the liquid is equal to the atmospheric pressure.

A) Ignition temperature
B) Temperature
C) Boiling point
D) Vapor pressure

46. The minimum temperature to which the substance in the air must be heated in order to initiate or cause self-contained combustion without the addition of heat from outside sources.

A) Temperature
B) Flashpoint
C) Boiling point
D) Ignition temperature

47. The temperature at which the material will give off ample vapors to keep burning.

A) Fire point
B) Temperature
C) Flashpoint
D) Fire Prevention

48. The temperature at which a material is not hot enough to keep burning, but still gives off enough vapors to cause a flame to “flash” across the surface.

A) Fire point
B) Vapor pressure
C) Flashpoint
D) Temperature

49. Change whereby energy (heat) is absorbed or added before the reaction takes place.

A) Combustion flame
B) Exothermic Reaction
C) Endothermic Reaction
D) Oxidation

50. Reactions or changes that release or give off energy (heat) thus they produce substances with less energy than the reactants.

A) Exothermic reaction
B) Boiling point
C) Oxidation
D) Endothermic reaction

51. A chemical change in which combustible material (fuel) and an oxidizing agent react.

A) Oxidation
B) Oxygen
C) Flames
D) Fire

52. The manifestation of fire when the fire is in its gas-phased combustion. A matter that is produced by a fire.

A) Oxidation
B) Boiling point
C) Flashpoint
D) Combustion/flame

53. It is the initial stage of fire.

A) Smoldering/Decay Phase
B) Flashover
C) Incipient/Ignition/Beginning phase
D) Free-Burning/Growth Phase

54. The second phase of burning in which materials or structures are burning in the presence of adequate oxygen.

A) Fire
B) Incipient/Ignition/Beginning phase
C) Smoldering/Decay Phase
D) Free-Burning/Growth Phase

55. A sudden, almost simultaneous ignition of all combustible materials in a compartment.

A) Flashpoint
B) Fire triangle
C) Backdraft
D) Flashover

56. Ignition of unburned gases in the smoke layer near the ceiling.

A) Flashpoint
B) Flashover
C) ROLLOVER(FLAMEOVER)
D) Fire

57. The final phase of burning wherein flame ceases but dense smoke and heat completely fill the confined room.

A) Fire phase
B) Ignition phase
C) Smoldering Phase
D) Growth phase

58. STAGES OF FIRE BY________?

A) Flarenio G. Montolo
B) FELIPE G. MONTOJO 2006
C) Jonathan G. Mohojo 2006
D) Jose P. Rizal
E) Felinio G. Montolo 2006

59. no visible smoke, flame or sufficient heat to be detected.

A) Flame stage
B) Smoldering stage
C) Incipient stage
D) Exploition stage

60. visible smoke may be detected rising from the burning mass. During this stage no flame and very little detectable heat.

A) Stages
B) Smoldering stage
C) Incipient stage
D) Flame stage

61. It is the point where ignition actually occurs, flames are noticeable and the smoke decreases in volume as the flames and heat increase.

A) Incipient stage
B) Flame stage
C) Smoldering stage
D) Exploition stage

62. this stage closely follows the flame stage, and once this stage is reached the fire can normally be said to be out of control.

A) Exploition stage
B) Smoldering stage
C) Flame stage
D) Incipient stage

63. Ex. Spontaneous Heating and Lightning.

A) Natural Fire
B) Fire
C) Accident fire
D) Intentional fire

64. automatic chemical reaction that results to spontaneous combustion due to auto-ignition of organic materials.

A) Sparkling
B) Spontaneous Heating
C) Lightning
D) Arcing

65. A form of static electricity; a natural electric current with great magnitude,

A) Spontaneous Heating
B) Lightning
C) Cold bolt
D) Hot bolt

66. longer in duration; capable only of igniting combustible materials

A) Hot bolt
B) Cold bolt
C) Light bolt
D) Red bolt

67. shorter in duration; capable of splintering a property or literally blowing apart an entire structure;

A) Hot bolt
B) Ignition bolt
C) Cold bolt
D) Bolts

68. An accidental connection in an electrical circuit where electricity takes an easier, unintended path, causing a sudden flow of current.

A) Short Circuit
B) Arcing
C) Line surge
D) Sparking

69. When electricity jumps across a gap between two conductors, producing a bright,continuous electrical discharge.

A) Arcing
B) Overheating of electrical appliances
C) Short circuit
D) Sparking

70. highly flammable chemicals that are used to facilitate flame propagation

A) Trailer
B) Plant
C) Accelerant

71. The preparation and/or gathering of combustible materials needed to start a fire.

A) Plant
B) Trailer
C) Accelerant

72. The preparation of flammable substances in order to spread the fire.

A) Trailer
B) Plant
C) Accelerant

73. Involve combustible material like wood,paper, fabric,and plastic.

A) Class A
B) Class K
C) Class C
D) Class B
E) Class D

74. Involve combustible liquid or gases like gas,propane,oil based paints.

A) Class B
B) Class A
C) Class D
D) Class C

75. Energized electrical equipment like transformers and appliances.

A) Class A
B) Class B
C) Class D
D) Class C

76. Combustible metals like magnesium, aluminum,and titanium.

A) Class A
B) Class D
C) Class C
D) Class B

77. Involve flammable liquids such as cooking oil, fats and greases

A) Class K
B) Class A
C) Class C
D) Class B
E) Class D

78. It is the transmission of an object/medium or conductor, such as a pipe, metal, hot air duct, wire, or even wall.

A) Flame contact
B) Radiation
C) Convection
D) Conduction

79. The transmission is through the discharge and spread of heat from a heated or burning source.

A) Radiation
B) Flame contact
C) Convection
D) Conduction

80. It is the transmission of heat by the moving currents of liquid or gas. When these gases or liquids are heated, they start to move within themselves; and by their free motion, circulation starts.

A) Radiation
B) Flame contact
C) Conduction
D) Convection

81. Heat may be conducted from one body to another by direct flame contact. Fire spreads along or through burning material by flame contact.

A) Flame contact
B) Conduction
C) Convection
D) Radiation

82. means simply “how hot the fire is burning.”

A) Intensity of radiation
B) Intensity of heat
C) Intensity of smokes
D) Intensity of fire

83. means showing down the rate of burning, whereas, control means keeping the fire from spreading or holding the fire to one area.

A) Fire triangle
B) Fire protection
C) Fire suppression
D) Fire combustion

84. This process uses an extinguishing agent whose primary characteristic is heat absorption.

A) Cooling
B) Seperation
C) Inhibition
D) Smothering

85. Excludes the oxygen from the fuel so that the gases or vapors of the fuel cannot ignite and continue the combustion. CO2 and AFFF are used for this purpose.

A) Cooling
B) Smothering
C) Fire
D) Seperation

86. The removal of the fuel, as in the example of turning off a valve in a gas line prevents the fuel and oxygen from coming together.

A) Cooling
B) Smothering
C) Fire
D) Seperation

87. This method works by stopping the chemical reaction that keeps the fire burning. Dry chemicals or vaporizing liquids, such as potassium bicarbonate, interrupt the fire in several ways at the same time.

A) Inhibition
B) Cooling
C) Smothering
D) Radiation

88. Meaning of AFFF?

A) Aqueous film forming foam
B) Aqueous film foam forming
C) Aqueous forming film foam
D) Aquios forming foam film

89. Used only on Class A fires.

A) Water
B) Hydrogen
C) Carbon monoxide
D) Carbon dioxide

90. It is non-combustible and non-reactive with most substances. Due to its non-conductivity, CO2 is very effective for use on Class C fires.

A) Water
B) Carbon monoxide
C) Carbon dioxide
D) Fire

91. Extinguishing agents in use today are mixtures of powders and various additives that improve the storage, flow, and water repellency of the powders.

A) Carbon dioxide
B) Dry chemical
C) Dry powder
D) Water

92. Is used primarily on Class D fires and should not be used on other types of fire, due to its limited value on these fires.

A) Dry chemical
B) Carbon dioxide
C) Dry powder
D) Water

93. These agents have been used for over 50 years. Continuous research has brought these agents to the present high degree of effectiveness in interrupting the chain reaction they possess along with a decrease in life safety hazards.

A) Halogenated Agents
B) Extinguishing
C) Hydrogen Sulfide
D) Carbon monoxide

94. It is a mechanical device usually made of metal, containing chemicals, fluids, or gases for stopping fires, the means for application of its contents for the purpose of putting out the fire (particularly small fire) before it propagates, and is capable of being readily moved from place to place.

A) Fire Extinguisher
B) Fire
C) Fire protection
D) Fire problem

95. are usually rated for multi-purpose use. It contains an extinguishing agent
and uses compressed, non-flammable gas as a propellant.

A) Carbon monoxide
B) Dry chemical
C) Carbon dioxide
D) Chemical

96. Used on Class B and Class C fires. CO2 extinguishes fire by smothering, reducing the oxygen level, below that which supports combustion.

A) Dry chemical
B) Carbon dioxide
C) Foam
D) Metal

97. Used only on Class A and B fires. Foam removes fuel by forming a layer over a burning liquid and preventing flammable vapors from escaping

A) Metal/ Sand Extinguisher
B) Halons
C) Foam

98. -Used on Class B and C fires. These are made up of carbon and one or more halogen elements like
fluorine, chlorine, iodine, and bromine. These types of extinguishers are often used to protect valuable
electrical equipment
since they leave no residue to clean up, unlike CO2. Halon extinguishers have a
limited range,
usually from 4-6 feet.

A) Foam
B) Halons
C) Carbon dioxide
D) Fire

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