CH5-CH8

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Fayetteville Technical Community College *

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220

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Chemistry

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Feb 20, 2024

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DF Multiple Choice Identify the choice that best completes the statement or answers the question. ____ 1. Which of the following BEST describes how understanding the physical science of fire can help firefighters? A. It keeps radiant heat from igniting fuel. B. It keeps flaming combustion from beginning. C. It translates into practical knowledge of fire behavior. D. It helps in stopping rapid fire behavior from developing. ____ 2. Which of the following terms refers to a substance remaining chemically the same, but changing in size, shape or appearance? A. Chemical shift B. Physical change C. Chemical reaction D. Parallel alteration ____ 3. When a substance changes from one type of matter to another, it has had a: A. chemical shift. B. physical change. C. chemical reaction. D. physical alteration. ____ 4. Which of the following represents the amount of energy that an object can release in the future? A. Kinetic B. Thermal C. Potential D. Mechanical ____ 5. The energy possessed by a moving object is called: A. kinetic energy. B. thermal energy. C. potential energy. D. mechanical energy. ____ 6. The potential chemical energy of fuel in fire behavior is converted to: A. sound energy. B. thermal energy. C. electrical energy. D. mechanical energy. ____ 7. What type of reaction absorbs energy as it occurs? A. Kinetic B. Potential C. Exothermic D. Endothermic
____ 8. What type of reaction releases energy in the form of heat and sometimes light? A. Kinetic B. Potential C. Exothermic D. Endothermic ____ 9. The process of ignition causes pyrolysis in solid fuels and ___ in liquid fuels. A. melting B. freezing C. vaporization D. kinetic reaction ____ 10. What is the most common form of ignition? A. Piloted B. Exothermic C. Endothermic D. Autoignition ____ 11. What mode of combustion produces a smoldering glow in a material’s surface? A. Kinetic B. Flaming C. Potential D. Nonflaming ____ 12. In what mode of combustion is a visible flame produced? A. Kinetic B. Flaming C. Potential D. Nonflaming ____ 13. What are the elements necessary to create fire in the model represented by the fire triangle? A. Fuel, oxygen, heat B. Heat, fuel, ignition C. Passive agents and heat D. Oxygen and passive agents ____ 14. Which of the following BEST describes what the fire tetrahedron represents? A. A transfer of sound energy B. The process of autoignition C. An uninhibited chemical chain reaction D. The relationship between fuel, oxygen, heat ____ 15. What type of combustion occurs when burning is localized on or near a fuel’s surface? A. Flaming B. Exothermic C. Nonflaming D. Endothermic ____ 16. What product of combustion may heat adjacent fuels, making them susceptible to ignition?
A. Toxic smoke B. Thermal energy C. Hydrogen cyanide D. Carbon monoxide ____ 17. What product of combustion causes the most fire deaths? A. Toxic smoke B. Thermal energy C. Carbon dioxide D. Hydrogen cyanide ____ 18. What product of combustion is the most common product in structure fires? A. Toxic smoke B. Thermal energy C. Hydrogen cyanide D. Carbon monoxide ____ 19. Which of the following BEST describes why firefighters must use SCBA during overhaul? A. Smoke is not like other flammable gases; it will not burn or explode. B. Hazardous concentrations of smoke are only present outside the structure. C. Hazardous concentrations are typically below short-term exposure limits. D. Volume and density of smoke may be reduced, but the hazard is not eliminated. ____ 20. Which of the following BEST describes kinetic energy transfer? A. It does not move at all. B. It moves from one substance to another, no matter what the temperature. C. It moves from low-temperature to high-temperature substances. D. It moves from high-temperature to low-temperature substances. ____ 21. What source of thermal energy is the most common source of heat in combustion reactions? A. Radiant energy B. Electrical energy C. Chemical energy D. Mechanical energy ____ 22. Which of the following sources of energy is a form of oxidation? A. Sparking B. Self-heating C. Resistance heating D. Spontaneous ignition ____ 23. What method of electrical energy occurs when a high-temperature luminous discharge crosses a gap? A. Arcing B. Sparking C. Overcurrent D. Resistance heating ____ 24. What method of heat transfer occurs when a material is heated as the result of direct contact with a heat source?
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A. Potential B. Radiation C. Conduction D. Convection ____ 25. What heat transfer method usually occurs through movement of hot smoke and fire gases? A. Potential B. Radiation C. Conduction D. Convection ____ 26. What method of heat transfer can become the dominant mode as the fire grows in size? A. Potential B. Radiation C. Conduction D. Convection ____ 27. Which of the following BEST describes the influence of exposed surfaces on radiant heat? A. Creating a vacuum will stop radiant heat. B. Materials that reflect radiated energy help increase radiant heat. C. Dark materials emit and absorb heat more effectively than light materials. D. Temperature differences between the heat source and exposed surface have no impact. ____ 28. Which type of fuel does not contain carbon? A. Simple B. Organic C. Reactive D. Inorganic ____ 29. Which of the following terms is the total amount of energy released when a specific amount of fuel is burned? A. Thermal energy B. Chemical energy C. Heat release rate D. Heat of combustion ____ 30. Heat release rate is usually expressed in which of the following measurements? A. Kilowatts (kW) B. Kilojoules/gram (kJ/g) C. British thermal unit (Btu) D. Kilowatts per meter squared (kW/m 2 ) ____ 31. What type of fuel can be the most dangerous of all the types? A. Solid B. Liquid C. Gaseous D. Chemical
____ 32. What type of fuel has mass and volume but no definite shape? A. Solid B. Liquid C. Gaseous D. Chemical ____ 33. Liquids with a specific gravity of less than 1 will: A. turn into vapor. B. turn into solid. C. float on the surface. D. sink below the surface. ____ 34. Which of the following BEST describes what vapor pressure indicates? A. How easily a substance will evaporate B. How long it takes a substance to evaporate C. What form the substance will take in a container D. What direction a substance will take when released from a container ____ 35. Which of the following terms is the minimum temperature at which a liquid gives off sufficient vapors to ignite, but still not sustain combustion? A. Fire point B. Flash point C. Vapor point D. Pressure point ____ 36. What term is used to describe the extent to which a substance will mix with water? A. Solubility B. Mixability C. Volatility D. Reactivity ____ 37. What type of fuel has a definite size and shape? A. Solid B. Liquid C. Gaseous D. Chemical ____ 38. Which of the following terms is used to refer to the process that can generate sufficient quantities of burnable vapors to ignite in the presence of a sufficient oxidizer? A. Pyrolysis B. Fire point C. Flash point D. Vapor pressure ____ 39. Fuel particles become smaller as the ratio of surface-to-mass: A. increases. B. decreases. C. stays constant. D. fluctuates back and forth.
____ 40. The primary oxidizing agent in most fires is: A. carbon. B. oxygen. C. nitrogen. D. hydrogen. ____ 41. Which of the following BEST describes the impact of higher oxygen concentration on combustion? A. Materials burn more intensely. B. Fires may be easier to extinguish. C. Nonflaming combustion is extinguished. D. Materials that do not burn at normal levels still do not burn. ____ 42. What term defines the minimum concentration of fuel vapor and air that supports combustion? A. Vaporization B. Vapor pressure C. Lower flammable limit D. Upper flammable limit ____ 43. Which of the following BEST describes the complete oxidation of methane? A. It produces water. B. It produces carbon dioxide. C. It produces oxygen and water. D. It produces carbon dioxide and water. ____ 44. Which of the following BEST describes the impact of an extinguishing agent when trying to extinguish flaming combustion? A. It forms an unstable product. B. It speeds the combustion reaction. C. It interferes with the chemical reaction. D. It burns more oxygen in a short amount of time. ____ 45. Which of the following fire development factors affects heat release rate? A. Fuel type B. Ventilation C. Compartment volume and ceiling height D. Availability and location of additional fuel ____ 46. What fire development factor is based on considering how the volume of air will impact radiated heat in a fire? A. Fuel type B. Ambient conditions C. Compartment volume and ceiling height D. Availability and location of additional fuel ____ 47. What form of compartment fire is controlled by the availability of oxygen and the configuration of fuel? A. Uncontrolled B. Fuel-controlled
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C. Base controlled D. Ventilation-controlled ____ 48. What thermal property of a compartment contains heat within the compartment, causing localized increase in temperature? A. Insulation B. Retention C. Passive agents D. Heat reflectivity ____ 49. What fire development factor includes cold temperature, strong winds, and wind direction? A. Fuel type B. Ambient conditions C. Compartment volume and ceiling height D. Availability and location of additional fuel ____ 50. In what stage is fire development largely dependent on the characteristics and configuration of the fuel involved? A. Incipient B. Growth C. Fully Developed D. Decay ____ 51. Which of the following affects the amount of air entrained in the plume during the growth stage? A. Type of fuel B. Thermal layering C. Location of ignition D. Location of fuel package ____ 52. Which of the following is defined as the tendency of gases to form into layers according to temperature? A. Type of fuel B. Thermal layering C. Location of ignition D. Location of fuel package ____ 53. The neutral plane in the growth stage is the: A. beginning of rapid transition layers. B. point where thermal layering begins. C. opening in the hot and cool layers. D. interface of hot and cool layers at an opening. ____ 54. Isolated flames in the gas layer during the growth stage indicates: A. hot and cool gases are mixing together. B. the temperature is only slightly above ambient. C. the concentration of combustion products is low. D. that portions of the layer are within flammable range.
____ 55. What stage of fire development occurs when all the combustible materials in a compartment are burning? A. Incipient B. Growth C. Fully Developed D. Decay ____ 56. What fire stage occurs as the fuel is consumed and oxygen concentration falls? A. Incipient B. Growth C. Fully Developed D. Decay ____ 57. What type of rapid fire development happens when all the combustible materials and gases in a compartment ignite almost simultaneously? A. Backdraft B. Flashover C. Combustion D. Smoke explosion ____ 58. What common element of flashover represents the shift from growth stage to fully developed stage? A. Rapidity B. Compartment C. Transition in fire development D. Ignition of all exposed surfaces ____ 59. Which of the following is a heat indicator of a possible flashover? A. Darkening smoke B. Darkened windows C. Bi-directional movement in smoke D. High velocity and turbulent air flow ____ 60. The ignition of unburned fire gases at the top of the compartment is known as: A. rollover. B. flashover. C. combustion. D. smoke explosion. ____ 61. What aspect of fire development is a result of an increase in low-level ventilation prior to upper level ventilation? A. Rollover B. Backdraft C. Combustion D. Smoke explosion ____ 62. Which of the following is a building indicator for a possible backdraft? A. Optically dense smoke B. Little or no visible flame C. Turbulent smoke discharge
D. Fire confined to a void space ____ 63. Which of the following is a heat indicator for a possible backdraft? A. Smoke stained windows B. Turbulent smoke discharge C. Fire confined to a void space D. Contents with high heat release rate ____ 64. What type of rapid fire development occurs as unburned fuel gases contact an ignition source? A. Rollover B. Backdraft C. Combustion D. Smoke explosion ____ 65. What is the most common method used in fire fighting operations? A. Fuel removal B. Oxygen exclusion C. Temperature reduction D. Chemical flame inhibition ____ 66. Water is converted to steam at: A. 190 o F (88 o C). B. 212 o F (100 o C). C. 230 o F (110 o C). D. 300 o F (149 o C). ____ 67. What method of fire suppression is the simplest? A. Fuel removal B. Oxygen exclusion C. Temperature reduction D. Chemical flame inhibition ____ 68. What fire-suppression method does not work if fuel is self-oxidixing? A. Fuel removal B. Oxygen exclusion C. Temperature reduction D. Chemical flame inhibition ____ 69. What suppression method uses extinguishing agents to stop flame production? A. Ventilation B. Oxygen exclusion C. Temperature reduction D. Chemical flame inhibition ____ 70. What fire behavior can be the result of wind from outside the structure? A. Oxygen exclusion B. Unplanned ventilation C. Temperature reduction D. Chemical flame inhibition
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____ 71. Which of the following BEST describes the purpose of personal protective equipment (PPE)? A. Designed to eliminate injuries B. Designed to minimize risk of injury or fatality C. Designed to isolate firefighters during incident D. Designed to minimize discomfort while at incident ____ 72. Structural fire fighting protective clothing must meet what NFPA ® standard? A. 1500 B. 1971 C. 1977 D. 1982 ____ 73. Which of the following BEST describes why personal protective equipment (PPE) should never be altered? A. May create confusion at incident scene B. May cause misidentification with Incident Command C. May void manufacturer’s warranty and endanger lives D. May significantly increase breathing, heart rate, and skin temperature ____ 74. Which of the following BEST describes a design limitation of structural fire fighting personal protective equipment (PPE)? A. Keeps coat sleeves from riding up B. Provides protection from hot water C. Prevents heat transfer away from body D. Covers all portions of skin when moving ____ 75. What part of structural fire fighting personal protective equipment (PPE) prevents scalding water and embers from reaching the ears and neck? A. Helmets B. Wristlets C. Protective coats D. Eye protection devices ____ 76. What part of structural fire fighting personal protective equipment (PPE) is intended for use in combination with a primary form of eye protection? A. Goggles B. Safety glasses C. SCBA facepieces D. Helmet-mounted faceshields ____ 77. What part of structural fire fighting personal protective equipment (PPE) is designed to fit inside a protective coat? A. Helmets B. Wristlets C. Protective hoods D. Eye protection devices
____ 78. Which of the following BEST describes why the liner should never be removed from a protective coat? A. It traps insulating air close to the body. B. It increases direct flame contact exposure. C. It allows less restrictive movement during incident. D. It compromises the design and increases the likelihood of injuries. ____ 79. Which of the following structural fire fighting personal protective equipment (PPE) components must allow enough dexterity and tactile feel to perform the job required? A. Protective coats B. Protective hoods C. Protective gloves D. Protective trousers ____ 80. What part of structural fire fighting personal protective equipment (PPE) must be high enough to protect the lower leg? A. Protective coats B. Protective hoods C. Protective trousers D. Protective footwear ____ 81. What part of structural fire fighting personal protective equipment (PPE) is worn when noise exceeds maximum noise exposure levels? A. Protective coats B. Protective hoods C. Hearing protection devices D. Personal alert safety systems ____ 82. What part of structural fire fighting personal protective equipment (PPE) is useful in total darkness and confined spaces? A. Protective coats B. Eye protection devices C. Hearing protection devices D. Personal alert safety systems ____ 83. Which NFPA ® standard outlines the specifications for wildland personal protective clothing? A. 1500 B. 1971 C. 1977 D. 1982 ____ 84. What part of wildland personal protective equipment (PPE) must meet the requirements of ANSI Z87.1? A. Gloves B. Jackets C. Goggles D. Trousers ____ 85. Steel toe boots are not recommended for wildland protective clothing because they:
A. interfere with mobility. B. absorb and retain heat. C. do not have enough grip. D. do not protect enough of the leg. ____ 86. What piece of personal protective equipment (PPE) can be worn to increase visibility at roadway incidents? A. Protective coat B. Eye/face protection device C. Personal alert safety systems D. Traffic vests with retroreflective trim ____ 87. What component of emergency medical protective clothing may be dual certified for use in the station as well? A. Footwear B. Facemask C. Utility gloves D. Face protection device ____ 88. Which of the following types of special protective clothing requires a personal flotation device? A. Ice rescue B. Technical rescue C. Proximity fire fighting D. Hazardous materials ____ 89. Which of the following types of special protective clothing is designed as similar to structural personal protective equipment (PPE) but with an aluminized outer shell? A. Ice rescue B. Technical rescue C. Hazardous materials D. Proximity fire fighting ____ 90. Which NFPA ® standard specifies requirements for station/work uniforms? A. 1500 B. 1975 C. 1977 D. 1982 ____ 91. One-hundred percent cotton underwear is recommended for station/work uniforms to prevent: A. burns. B. chafing. C. discomfort. D. hygiene issues. ____ 92. Which of the following BEST describes the frequency with which personal protective equipment (PPE) should be inspected? A. As dictated by manufacturers B. As a firefighter feels there is need C. When there is down time at the fire station
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D. At the beginning of shift and after every use ____ 93. Where might a firefighter find wear due to friction during a routine personal protective equipment (PPE) inspection? A. Along the path of a zipper B. Where SCBA contacts the protective coat C. Where SCBA facepiece and mask connect D. Under arms, in crotch, at knee and elbow joints ____ 94. The type of cleaning required for personal protective equipment (PPE) is determined by: A. local budgetary constraints. B. where the department is located. C. how long the PPE has been in use. D. amount and type of contamination. ____ 95. What type of NFPA ® defined cleaning may be done in a washing machine designed to handle heavy loads? A. Routine cleaning B. Contract cleaning C. Advanced cleaning D. Specialized cleaning ____ 96. Damaged equipment marked for training can be used in: A. live fire training. B. any type of training. C. non-live fire training. D. training for the public, not for firefighters. ____ 97. Moisture in the shell and liner material of personal protective equipment (PPE) could result in: A. air pockets. B. shrinkage of PPE. C. serious steam burns. D. discomfort during an incident. ____ 98. What is the minimum overlap between coat and trousers when the wearer is bent over to a 90 degree angle? A. 2 inches (50 mm) B. 3 inches (76 mm) C. 5 inches (127 mm) D. 6 inches (152 mm) ____ 99. What action should a firefighter take if thermal radiant heat burns develop while wearing personal protective equipment (PPE)? A. Move farther back from fire B. Withdraw from area immediately C. Shift to get a different angle on the fire D. Inform supervisor before continuing work ____ 100. Which of the following respiratory hazards causes superheated air to damage the respiratory tract?
A. Oxygen levels B. Gases and vapors C. Elevated temperatures D. Particulate contaminants ____ 101. What two respiratory hazards are responsible for the majority of fire-related fatalities? A. Phosgene and ammonia B. Carbon monoxide and phosgene C. Carbon monoxide and hydrogen cyanide D. Hydrogen cyanide and hydrogen chloride ____ 102. Which of the following respiratory hazards can be protected against using high-efficiency particulate (HEPA) filters? A. Oxygen levels B. Gases and vapors C. Airborne pathogens D. Elevated temperatures ____ 103. Which of the following BEST describes when SARs are used? A. For assessing industrial accidents B. For emergency medical incidents C. For working with particulate-producing tools D. For confined space rescues and technical rescue incidents ____ 104. An open-circuit SCBA air cylinder control valve should be _____ when in use. A. opened fully B. partially open C. opened slowly D. monitored closely ____ 105. Which part of the facepiece assembly releases exhaled air without admitting in the contaminated outside atmosphere? A. Nose cup B. Exhalation valve C. Facepiece frame D. Speaking diaphragm ____ 106. Which part of the facepiece assembly is made of clear safety plastic and mounted in a flexible rubber frame? A. Nose cup B. Exhalation valve C. Facepiece frame D. Speaking diaphragm ____ 107. Which of the following SCBA components warns when the system is reaching 20-25% of cylinder capacity? A. Nose cup B. Universal air coupling C. Remote pressure gauge
D. End-of-service-time indicators ____ 108. Which of the following types of respiratory protection uses visual ESTIs only? A. Open-circuit SCBAs B. Closed-circuit SCBAs C. Air-purifying respirators D. Atmosphere-supplying respirators ____ 109. Which of the following APR effectiveness clues is monitored by being aware of how labored a firefighter’s breathing is? A. Time B. Weight C. Taste and smell D. Resistance-to-breathing-indicators ____ 110. Which of the following limitations of respiratory protection may cause the wearer to deplete the air supply rapidly? A. Lack of agility B. Psychological limitations C. Lack of physical condition D. Inadequate pulmonary capacity ____ 111. Which of the following limitations of respiratory protection may affect the ability to get a complete facepiece seal? A. Unique facial features B. Psychological limitations C. Lack of physical condition D. Inadequate pulmonary capacity ____ 112. Which of the following limitations of respiratory protection is created by the weight and resistance of harness straps? A. Decreased mobility B. Decreased endurance C. Poor condition of apparatus D. Decreased ability to communicate ____ 113. Which of the following limitations of respiratory protection is caused by fogging in the facepiece? A. Limited visibility B. Decreased endurance C. Low air cylinder pressure D. Decreased ability to communicate ____ 114. Which of the following BEST describes the factors respiratory equipment must be protected from during storage? A. Ultraviolet light, contamination B. Ultraviolet light, temperature changes C. Contamination, temperature changes, gas vapors D. Contamination, temperature changes, ultraviolet light
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____ 115. When donning SCBA, all straps on the harness assembly and facepiece should be: A. fully extended. B. partially extended. C. adjusted individually. D. adjusted per local SOPs. ____ 116. Which NFPA ® standard requires seat-mounted SCBAs be held in place by a mechanical latching device? A. 1500 B. 1901 C. 1971 D. 1982 ____ 117. Exposure to weather and physical hazards is a potential disadvantage for what type of SCBA mount? A. Seat mount B. Unmounted C. Backup mount D. Rear external mount ____ 118. Compartment doors may interfere with what type of SCBA mount? A. Seat mount B. Unmounted C. Backup mount D. Rear external mount ____ 119. Before doffing SCBA, ensure you are out of the contaminated area and: A. the facepiece is not fogged. B. SCBA is no longer required. C. the incident is under control. D. all members of your team are all right. ____ 120. Which NFPA ® standard establishes the inspection period for protective breathing apparatus? A. 1500 B. 1852 C. 1971 D. 1982 ____ 121. Which piece of protective breathing apparatus has the frame checked weekly for deterioration, dirt, and cracks? A. Hoses B. Facepiece C. Breathing air cylinder assembly D. Backplate and harness assembly ____ 122. Which piece of protective breathing apparatus has the hand wheel checked for damage during weekly inspection? A. Hoses B. Facepiece C. Breathing air cylinder assembly
D. Backplate and harness assembly ____ 123. Which piece of protective breathing apparatus is checked for any unusual sounds during operation? A. Hoses B. Facepiece C. Regulator D. Low-pressure alarm ____ 124. Soot can reduce visibility on what piece of protective breathing apparatus? A. Hoses B. Facepiece C. Regulator D. Low-pressure alarm ____ 125. Which types of SCBA air cylinders are tested every five years? A. Steel and aluminum B. Fully wrapped Kevlar TM C. Fully wrapped fiberglass D. Hoop-wrapped aluminum ____ 126. Any source used to refill SCBA must provide what type of air quality? A. Type 1 Grade A B. Type 1 Grade B C. Type 1 Grade C D. Type 1 Grade D ____ 127. Which type of fill station is designed to refill SCBA at emergency incidents? A. Mobile fill stations B. Stationary fill stations C. All types of fill stations D. Firefighter Breathing Air Replenishment Systems ____ 128. Which of the following BEST describes when an SCBA cylinder needs to be replaced? A. After first use of cylinder B. When the cylinder becomes completely empty C. While performing short-term work in emergency operations D. During inspection if cylinder contains less than 90% of capacity ____ 129. Which of the following BEST describes SCBA safety precautions to take in an IDLH atmosphere? A. Work in teams of two or more B. Check air supply when there is down time C. Remove SCBA if atmosphere appears safe D. Exit IDLH atmosphere after low air alarm activates ____ 130. Which of the following is a nonemergency exit indicator? A. SCBA failure B. Assignment completed C. Change in oxygen level D. Change in concentration of respiratory hazards
____ 131. Which of the following is a nonemergency exit indicator? A. Situation is stabilized B. Changes in oxygen level C. Activation of SCBA low-pressure D. Presence of APR/PAPR breakthrough symptoms ____ 132. Which of the following is an emergency exit indicator? A. SCBA failure B. Situation is stabilized C. Assignment completed D. Necessary to replace air cylinder ____ 133. Which of the following is an emergency exit indicator? A. Situation is stabilized B. Change in oxygen level C. Changes in operational strategy D. Necessary to replace air cylinder ____ 134. A firefighter experiencing light-headedness, disorientation, and rapid fatigue most likely has: A. an oxygen deficiency. B. incorrectly cleaned PPE. C. reached a personal physical limit. D. not controlled breathing correctly. ____ 135. Which nonemergency exit technique may require a second team member to remain outside monitoring a search line? A. Egress paths B. Buddy system C. Controlled breathing D. Accountability systems ____ 136. Which nonemergency exit technique should be practiced in training until it is second nature? A. Egress paths B. Buddy system C. Controlled breathing D. Accountability systems ____ 137. Portable fire extinguishers should be chosen based on the: A. heat of the fire. B. type of fuel that is burning. C. amount of agent required to extinguish the fire. D. distance required between the extinguisher and the fire. ____ 138. What classification of portable fire extinguisher is used for fires that involve combustible liquids and gases? A. Class A B. Class B C. Class D
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D. Class K ____ 139. What classification of portable fire extinguisher is used for fires that involve combustible metals and alloys? A. Class A B. Class B C. Class D D. Class K ____ 140. What classification of portable fire extinguisher is used on fires that involve combustible cooking oils? A. Class A B. Class B C. Class D D. Class K ____ 141. Which method of extinguishing works by excluding oxygen from the burning process? A. Cooling B. Smothering C. Saponification D. Chain breaking ____ 142. What expelling mechanism works when the operator physically applies pressure to a pump that increases pressure within the container? A. Scoop B. Manual pump C. Stored pressure D. Pressure cartridge ____ 143. What type of portable fire extinguisher is intended primarily for ground cover fires? A. Clean agent B. Pump-type water C. Aqueous film forming foam D. Wet chemical stored-pressure ____ 144. What type of portable fire extinguisher uses air stored in the tank to force water up a siphon tube when operated? A. Clean agent B. Pump-type water C. Carbon dioxide (CO 2 ) D. Stored-pressure water ____ 145. What type of portable fire extinguisher is intended for use on Class K fires? A. Clean agent B. Pump-type water C. Aqueous film forming foam D. Wet chemical stored-pressure
____ 146. The resulting foam from an aqueous film forming foam (AFFF) extinguisher will ___ fuels lighter than air. A. mix in with B. float on the surface of C. sink below the surface of D. cause a chemical reaction with ____ 147. What application method is used with an aqueous film forming foam (AFFF) extinguisher in order to prevent disturbing the fuel? A. Apply foam directly to fuel surface B. Apply foam in conjunction with dry ice crystals C. Allow foam to gently rain down onto fuel surface D. Allow foam to rest before applying to fuel surface ____ 148. What type of portable fire extinguisher is discharged in the form of gas and works on Class B and Class C fires? A. Clean agent B. Pump-type water C. Carbon dioxide (CO 2 ) D. Wet chemical stored-pressure ____ 149. What type of portable fire extinguisher may produce a cloud that reduces visibility when discharged? A. Dry chemical B. Pump-type water C. Aqueous film forming foam D. Wet chemical stored-pressure ____ 150. What type of portable fire extinguisher may be applied with either an extinguisher or a scoop? A. Dry powder B. Dry chemical C. Pump-type water D. Wet chemical stored-pressure ____ 151. What portable fire extinguisher rating is based on the approximate square foot (square meter) area of flammable liquid a nonexpert operator can extinguish? A. Class A rating B. Class B rating C. Class K rating D. Multiple markings ____ 152. What portable fire extinguisher rating considers both the toxicity of the extinguishing agent and the toxicity of fumes produced when the agent is applied? A. Class A rating B. Class B rating C. Class C rating D. Class D rating ____ 153. On a multiple marking extinguisher the ratings for each class are: A. directly related to the others.
B. only identified by pictographs. C. separate, they do not affect each other. D. indicators that firefighters should not use them. ____ 154. Which statement BEST describes portable fire extinguisher selection? A. Extinguisher ratings do not impact selection. B. The correct extinguisher will minimize risk to life and property. C. The correct extinguisher will always require an expert operator. D. All types of extinguishers can be selected regardless of the situation. ____ 155. Once the proper extinguisher is selected, you must perform a visual inspection to ensure the extinguisher: A. has no external marks. B. is charged and operable. C. feels as though it contains agent. D. has a long enough hose to reach the fire. ____ 156. Once the proper extinguisher is selected, you must check to ensure the pressure gauge: A. is not clouded over. B. is in the operable range. C. has been properly inspected. D. records the last maintenance performed. ____ 157. The P in the PASS acronym stands for: A. squeeze handles. B. aim nozzle at base of fire. C. sweep nozzle back and forth. D. pull pin by breaking wire or seal. ____ 158. Which of the following statements BEST describes how to prevent scattering of lightweight fuels? A. Wind may be used to allow the agent to reach the fuel surface. B. First allow fuel to burn off vapors before applying agent to the fuel surface. C. Apply the agent from point where it reaches, but does not disturb, the fuel surface. D. Use two extinguishers, alternating application patterns, to apply agent to the fuel surface. ____ 159. Signal to others that a portable fire extinguisher is empty by: A. laying it on its side. B. marking it with a tag. C. standing it straight up. D. covering the hose with a blanket. ____ 160. NFPA ® 10 requires inspection of portable fire extinguishers at least: A. after every use. B. every three months. C. once every six months. D. once a year.
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____ 161. During inspection, if a portable fire extinguisher is found deficient in weight by ___ percent it should be removed from service and replaced. A. 5 B. 8 C. 10 D. 12 ____ 162. Do not remove the safety pin on a portable fire extinguisher until: A. ready to use the extinguisher. B. the fire appears to be dying out. C. ordered to by the commanding officer. D. you are 10 feet (3.04 meters) from the fire. ____ 163. How often should portable fire extinguishers be removed from service for maintenance? A. Monthly B. Bi-monthly C. Annually D. Bi-annually ____ 164. Which of the following types of rope is intended for self-rescue situations? A. Utility rope B. Escape rope C. Life safety rope D. Water rescue rope ____ 165. Which of the following types of rope is only used in situations not involving life safety? A. Utility rope B. Escape rope C. Life safety rope D. Water rescue rope ____ 166. Which of the following allows the re-use a life safety rope? A. Subjected to impact load B. Abrasions or visible damage C. Exposed to heat or direct flame D. Passed inspection by qualified personnel ____ 167. What type of damage must be recorded in the rope log because it cannot be detected by inspections? A. Exposure to direct flame B. Sustained load incidents C. Impact loading incidents D. Exposure to chemical vapors ____ 168. Which of the following is an advantage of synthetic fiber rope? A. Holds a knot firmly B. Resistant to sunlight C. Very strong yet lightweight D. Does not melt when exposed to heat
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____ 169. In a kernmantle rope, the _____ protects the core from abrasion. A. sheath B. twisted fiber C. low stretch fiber D. overlapping strand ____ 170. Which of the following types of rope may not elongate more than 10 percent under a load equal to 10 percent of its breaking strength? A. Laid rope B. Braided rope C. Static kernmantle rope D. Dynamic kernmantle rope ____ 171. Which of the following types of rope is less likely to twist during use than laid rope? A. Braided rope B. Braid-on-braid rope C. Static kernmantle rope D. Dynamic kernmantle rope ____ 172. Which of the following types of rope is constructed of a braided core enclosed in a braided, herringbone-pattern sheath? A. Braided rope B. Braid-on-braid rope C. Static kernmantle rope D. Dynamic kernmantle rope ____ 173. How often should unused rope be inspected? A. Every month B. Every six months C. At least once a year D. At least twice a year ____ 174. For which of the following types of rope are soft spots possible signs of damage to the core? A. Laid rope B. Braided rope C. Kernmantle rope D. Braid-on-braid rope ____ 175. Which of the following are signs of damage in laid natural fiber rope? A. Excessive stretching B. Abrasions or fuzziness C. Irregularities in weave D. Powdering between strands ____ 176. When the sheath of a braid-on-braid rope slides on its core, a firefighter should: A. destroy the rope immediately. B. record the damage in the rope log. C. cut off the end to pull off excess material. D. store the rope in a dryer place, moisture is causing the slippage.
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____ 177. Firefighters should avoid _____ in order to prevent grinding dirt and debris into ropes. A. walking on rope B. exposing rope to rust C. exposing rope to sustained loads D. allowing rope to come into contact with chemicals ____ 178. When drying a rope, firefighters should avoid: A. suspending rope in a hose tower. B. drying rope in the direct sunlight. C. loosely coiling rope in a hose dryer. D. spreading out rope on hose drying rack. ____ 179. Which of the following types of rope is the only rope required to have a rope log? A. Utility rope B. Escape rope C. Life safety rope D. Water rescue rope ____ 180. Storing rope in a bag can make it easy to transport and protects it from: A. direct heat. B. contamination. C. gasoline fumes. D. moisture in the air. ____ 181. What type of webbing is mainly used for straps and harness? A. Flat webbing B. Utility webbing C. Tubular webbing D. Life safety webbing ____ 182. What type of webbing is mainly used for rescue applications? A. Flat webbing B. Utility webbing C. Tubular webbing D. Life safety webbing ____ 183. What type of webbing is rated for loads up to 600 pounds (2.67 k/N) and fastens around the waist and thighs or under buttocks? A. Utility webbing B. Class I life safety webbing C. Class II life safety webbing D. Class III life safety webbing ____ 184. Webbing care and maintenance guidelines are: A. the same as those for natural rope. B. the same as those for synthetic rope. C. the same as those for life safety rope. D. the same as those for kernmantle rope.
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____ 185. Which part of the rope is used for hoisting? A. Knot B. Working C. Running D. Standing ____ 186. Which part of the rope is used to tie a knot or hitch? A. Knot B. Working C. Running D. Standing ____ 187. Removing the slack in rope after tying a knot is called: A. dressing. B. working. C. running. D. standing. ____ 188. Which bend is formed by bending a rope back on itself while keeping both sides parallel? A. Knot B. Loop C. Bight D. Round turn ____ 189. Which type of knot eliminates the danger of the running end slipping back through the knot? A. Bowline B. Handcuff C. Half-hitch D. Overhand safety ____ 190. Which type of knot can be used as a stopper knot so rope will not pass through a rescue pulley? A. Bowline B. Handcuff C. Figure-eight D. Becket bend ____ 191. Which type of knot can be used to secure a victim’s hands or feet to drag the victim to safety? A. Bowline B. Handcuff C. Figure-eight D. Becket bend ____ 192. Which type of knot is used for joining two ropes of unequal diameter? A. Bowline B. Handcuff C. Figure-eight D. Becket bend
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____ 193. Which of the following pieces of equipment is best used to provide a mechanical advantage during hoisting? A. Rope B. Pulley C. Webbing D. Carabiner ____ 194. During hoisting, which of the following actions is the BEST way to help prevent damage to the equipment? A. Hoisting SCBA first B. Hoisting all equipment at once C. Using proper knots and securing procedures D. Using the same hoisting method for all types of equipment ____ 195. What emergency scene use for rope can help provide a physical means of finding an exit route? A. Search lines B. Tool hoisting C. Object stabilization D. Control zone perimeter ____ 196. What emergency scene use for rope can help prevent a vehicle from falling when suspended over an edge? A. Search lines B. Tool hoisting C. Object stabilization D. Control zone perimeter
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DF Answer Section MULTIPLE CHOICE 1. ANS: C PTS: 1 REF: 208 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 2. ANS: B PTS: 1 REF: 208 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 3. ANS: C PTS: 1 REF: 208 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 4. ANS: C PTS: 1 REF: 209 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 5. ANS: A PTS: 1 REF: 209 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 6. ANS: B PTS: 1 REF: 209 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 7. ANS: D PTS: 1 REF: 210 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 8. ANS: C PTS: 1 REF: 210 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 9. ANS: C PTS: 1 REF: 210 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 10. ANS: A PTS: 1 REF: 210 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 11. ANS: D PTS: 1 REF: 212 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 12. ANS: B PTS: 1 REF: 212 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 13. ANS: A PTS: 1 REF: 212 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 14. ANS: C PTS: 1 REF: 212 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 15. ANS: C PTS: 1 REF: 213
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OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 16. ANS: B PTS: 1 REF: 214 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 17. ANS: A PTS: 1 REF: 215 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 18. ANS: D PTS: 1 REF: 215 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 19. ANS: D PTS: 1 REF: 216 OBJ: 5.I.1 Explain the science of fire as it relates to energy, forms of ignition, and models of combustion. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 20. ANS: D PTS: 1 REF: 216 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 21. ANS: C PTS: 1 REF: 217 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 22. ANS: B PTS: 1 REF: 217 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 23. ANS: A PTS: 1 REF: 219 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 24. ANS: C PTS: 1 REF: 220 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 25. ANS: D PTS: 1 REF: 221 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 26. ANS: B PTS: 1 REF: 222 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 27. ANS: C PTS: 1 REF: 222 OBJ: 5.I.2 Describe the impact of thermal energy on heat, temperature, and heat transfer. NAT: NFPA® 1001, 5.3.12 TOP: Firefighter I 28. ANS: D PTS: 1 REF: 223 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 29. ANS: D PTS: 1 REF: 223 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 30. ANS: A PTS: 1 REF: 224 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 31. ANS: C PTS: 1 REF: 225 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10
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TOP: Firefighter I 32. ANS: B PTS: 1 REF: 226 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 33. ANS: C PTS: 1 REF: 226 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 34. ANS: A PTS: 1 REF: 226 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 35. ANS: B PTS: 1 REF: 227 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 36. ANS: A PTS: 1 REF: 227 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 37. ANS: A PTS: 1 REF: 228 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 38. ANS: A PTS: 1 REF: 228 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 39. ANS: A PTS: 1 REF: 229 OBJ: 5.I.3 Recognize the physical states of fuel. NAT: NFPA® 1001, 5.3.10 TOP: Firefighter I 40. ANS: B PTS: 1 REF: 231 OBJ: 5.I.4 Explain the relationship between oxygen content and life safety. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 41. ANS: A PTS: 1 REF: 231 OBJ: 5.I.4 Explain the relationship between oxygen content and life safety. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 42. ANS: C PTS: 1 REF: 232 OBJ: 5.I.4 Explain the relationship between oxygen content and life safety. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 43. ANS: D PTS: 1 REF: 233 OBJ: 5.I.5 Identify the products of self-sustained chemical reactions. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 44. ANS: C PTS: 1 REF: 234 OBJ: 5.I.5 Identify the products of self-sustained chemical reactions. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 45. ANS: A PTS: 1 REF: 235 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 46. ANS: C PTS: 1 REF: 238 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 47. ANS: B PTS: 1 REF: 239 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I
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48. ANS: A PTS: 1 REF: 240 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 49. ANS: B PTS: 1 REF: 240 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 50. ANS: A PTS: 1 REF: 241 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 51. ANS: D PTS: 1 REF: 243 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 52. ANS: B PTS: 1 REF: 244 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 53. ANS: D PTS: 1 REF: 244 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 54. ANS: D PTS: 1 REF: 245 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 55. ANS: C PTS: 1 REF: 246 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 56. ANS: D PTS: 1 REF: 246 OBJ: 5.I.6 Explain the factors that affect fire development. | 5.I.7 Describe the stages of fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 57. ANS: B PTS: 1 REF: 247 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 58. ANS: C PTS: 1 REF: 247 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 59. ANS: B PTS: 1 REF: 248 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 60. ANS: A PTS: 1 REF: 248 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 61. ANS: B PTS: 1 REF: 248 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 62. ANS: D PTS: 1 REF: 249 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 63. ANS: A PTS: 1 REF: 249 OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 64. ANS: D PTS: 1 REF: 250
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OBJ: 5.I.8 Recognize signs, causes, and effects of rapid fire development. NAT: NFPA® 1001, 5.3.11 TOP: Firefighter I 65. ANS: C PTS: 1 REF: 250 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 66. ANS: B PTS: 1 REF: 250 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 67. ANS: A PTS: 1 REF: 251 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 68. ANS: B PTS: 1 REF: 251 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 69. ANS: D PTS: 1 REF: 251 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 70. ANS: B PTS: 1 REF: 252 OBJ: 5.I.9 Describe the methods through which fire fighting operations can influence fire behavior. NAT: NFPA® 1001, 5.3.11 | NFPA® 1001, 5.3.12 TOP: Firefighter I 71. ANS: B PTS: 1 REF: 259-261 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 72. ANS: B PTS: 1 REF: 261 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 73. ANS: C PTS: 1 REF: 262 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 74. ANS: C PTS: 1 REF: 263 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 75. ANS: A PTS: 1 REF: 264 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 76. ANS: D PTS: 1 REF: 265 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I
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77. ANS: C PTS: 1 REF: 266 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 78. ANS: D PTS: 1 REF: 266 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 79. ANS: C PTS: 1 REF: 267 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 80. ANS: D PTS: 1 REF: 267 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 81. ANS: C PTS: 1 REF: 270 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 82. ANS: D PTS: 1 REF: 270 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 83. ANS: C PTS: 1 REF: 270 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 84. ANS: C PTS: 1 REF: 272 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 85. ANS: B PTS: 1 REF: 272 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 86. ANS: D PTS: 1 REF: 273 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I
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87. ANS: A PTS: 1 REF: 274 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 88. ANS: A PTS: 1 REF: 275 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 89. ANS: D PTS: 1 REF: 276 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 90. ANS: B PTS: 1 REF: 276 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 91. ANS: A PTS: 1 REF: 276 OBJ: 6.I.1 Describe the purpose of personal protective equipment. | 6.I.2 Describe characteristics of each type of personal protective equipment. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.2 | NFPA® 1001, 5.3.3 TOP: Firefighter I 92. ANS: D PTS: 1 REF: 277 OBJ: 6.I.3 Summarize guidelines for the care of personal protective clothing. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.3 | NFPA® 1001, 5.5.1 TOP: Firefighter I 93. ANS: D PTS: 1 REF: 278 OBJ: 6.I.3 Summarize guidelines for the care of personal protective clothing. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.3 | NFPA® 1001, 5.5.1 TOP: Firefighter I 94. ANS: D PTS: 1 REF: 278 OBJ: 6.I.3 Summarize guidelines for the care of personal protective clothing. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.3 | NFPA® 1001, 5.5.1 TOP: Firefighter I 95. ANS: C PTS: 1 REF: 279 OBJ: 6.I.3 Summarize guidelines for the care of personal protective clothing. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.3 | NFPA® 1001, 5.5.1 TOP: Firefighter I 96. ANS: C PTS: 1 REF: 280 OBJ: 6.I.3 Summarize guidelines for the care of personal protective clothing. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.3.3 | NFPA® 1001, 5.5.1 TOP: Firefighter I 97. ANS: C PTS: 1 REF: 280 OBJ: 6.I.4 Explain the safety considerations for personal protective equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.3 TOP: Firefighter I 98. ANS: A PTS: 1 REF: 280 OBJ: 6.I.4 Explain the safety considerations for personal protective equipment.
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NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.3 TOP: Firefighter I 99. ANS: B PTS: 1 REF: 280 OBJ: 6.I.4 Explain the safety considerations for personal protective equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.3 TOP: Firefighter I 100. ANS: C PTS: 1 REF: 283 OBJ: 6.I.5 Identify respiratory hazards. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 101. ANS: C PTS: 1 REF: 285 OBJ: 6.I.5 Identify respiratory hazards. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 102. ANS: C PTS: 1 REF: 287 OBJ: 6.I.5 Identify respiratory hazards. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 103. ANS: D PTS: 1 REF: 289 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 104. ANS: A PTS: 1 REF: 290 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 105. ANS: B PTS: 1 REF: 292 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 106. ANS: C PTS: 1 REF: 292 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 107. ANS: D PTS: 1 REF: 293 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 108. ANS: C PTS: 1 REF: 294 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 109. ANS: D PTS: 1 REF: 295 OBJ: 6.I.6 Identify types of respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 110. ANS: B PTS: 1 REF: 295 OBJ: 6.I.7 Describe the limitations of respiratory protection equipment. | 6.I.8 Explain methods for storing respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 111. ANS: A PTS: 1 REF: 296 OBJ: 6.I.7 Describe the limitations of respiratory protection equipment. | 6.I.8 Explain methods for storing respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 112. ANS: A PTS: 1 REF: 296 OBJ: 6.I.7 Describe the limitations of respiratory protection equipment. | 6.I.8 Explain methods for storing respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 113. ANS: A PTS: 1 REF: 296 OBJ: 6.I.7 Describe the limitations of respiratory protection equipment. | 6.I.8 Explain methods for storing respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 114. ANS: D PTS: 1 REF: 296 OBJ: 6.I.7 Describe the limitations of respiratory protection equipment. | 6.I.8 Explain methods for storing
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respiratory protection equipment. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 115. ANS: A PTS: 1 REF: 298 OBJ: 6.I.9 Describe general donning and doffing considerations for protective breathing apparatus. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.2 TOP: Firefighter I 116. ANS: B PTS: 1 REF: 299 OBJ: 6.I.9 Describe general donning and doffing considerations for protective breathing apparatus. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.2 TOP: Firefighter I 117. ANS: D PTS: 1 REF: 300 OBJ: 6.I.9 Describe general donning and doffing considerations for protective breathing apparatus. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.2 TOP: Firefighter I 118. ANS: C PTS: 1 REF: 300 OBJ: 6.I.9 Describe general donning and doffing considerations for protective breathing apparatus. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.2 TOP: Firefighter I 119. ANS: B PTS: 1 REF: 302 OBJ: 6.I.9 Describe general donning and doffing considerations for protective breathing apparatus. NAT: NFPA® 1001, 5.3.1 | NFPA® 1001, 5.3.2 TOP: Firefighter I 120. ANS: B PTS: 1 REF: 303 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 121. ANS: B PTS: 1 REF: 303 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 122. ANS: C PTS: 1 REF: 304 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 123. ANS: C PTS: 1 REF: 305 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 124. ANS: B PTS: 1 REF: 305 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 125. ANS: A PTS: 1 REF: 307 OBJ: 6.I.10 Summarize general considerations for protective breathing apparatus inspections and care. NAT: NFPA® 1001, 5.1.1 | NFPA® 1001, 5.5.1 TOP: Firefighter I 126. ANS: D PTS: 1 REF: 307 OBJ: 6.I.11 Summarize safety precautions for refilling SCBA cylinders. | 6.I.12 Explain procedures for replacing SCBA cylinders. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.1 TOP: Firefighter I 127. ANS: A PTS: 1 REF: 309 OBJ: 6.I.11 Summarize safety precautions for refilling SCBA cylinders. | 6.I.12 Explain procedures for replacing SCBA cylinders. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.1 TOP: Firefighter I 128. ANS: D PTS: 1 REF: 311 OBJ: 6.I.11 Summarize safety precautions for refilling SCBA cylinders. | 6.I.12 Explain procedures for replacing SCBA cylinders. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.1 TOP: Firefighter I 129. ANS: A PTS: 1 REF: 311 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit
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indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 130. ANS: B PTS: 1 REF: 313 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 131. ANS: A PTS: 1 REF: 313 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 132. ANS: A PTS: 1 REF: 313 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 133. ANS: B PTS: 1 REF: 314 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 134. ANS: A PTS: 1 REF: 314 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 135. ANS: B PTS: 1 REF: 315 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 136. ANS: C PTS: 1 REF: 315 OBJ: 6.I.13 Explain safety precautions for SCBA use. | 6.I.14 Describe nonemergency and emergency exit indicators. | 6.15 Describe nonemergency exit techniques. NAT: NFPA® 1001, 5.3.1 TOP: Firefighter I 137. ANS: B PTS: 1 REF: 340 OBJ: 7.I.1 Explain portable fire extinguisher classifications. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 138. ANS: B PTS: 1 REF: 341 OBJ: 7.I.1 Explain portable fire extinguisher classifications. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 139. ANS: C PTS: 1 REF: 341 OBJ: 7.I.1 Explain portable fire extinguisher classifications. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 140. ANS: D PTS: 1 REF: 342 OBJ: 7.I.1 Explain portable fire extinguisher classifications. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 141. ANS: B PTS: 1 REF: 342 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 142. ANS: B PTS: 1 REF: 343 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 143. ANS: B PTS: 1 REF: 345
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OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 144. ANS: D PTS: 1 REF: 346 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 145. ANS: D PTS: 1 REF: 346 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 146. ANS: B PTS: 1 REF: 346 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 147. ANS: C PTS: 1 REF: 346 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 148. ANS: C PTS: 1 REF: 348 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 149. ANS: A PTS: 1 REF: 349 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 150. ANS: A PTS: 1 REF: 350 OBJ: 7.I.2 Describe types of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 151. ANS: B PTS: 1 REF: 352 OBJ: 7.I.3 Define the ratings in a portable fire extinguisher rating system. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 152. ANS: D PTS: 1 REF: 352 OBJ: 7.I.3 Define the ratings in a portable fire extinguisher rating system. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 153. ANS: C PTS: 1 REF: 353 OBJ: 7.I.3 Define the ratings in a portable fire extinguisher rating system. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 154. ANS: B PTS: 1 REF: 354 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 155. ANS: B PTS: 1 REF: 354 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 156. ANS: B PTS: 1 REF: 354 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 157. ANS: D PTS: 1 REF: 355 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 158. ANS: C PTS: 1 REF: 356 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 159. ANS: A PTS: 1 REF: 356 OBJ: 7.I.4 Explain the considerations taken when selecting and using portable fire extinguishers.
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NAT: NFPA® 1001, 5.3.16 TOP: Firefighter I 160. ANS: D PTS: 1 REF: 357 OBJ: 7.I.5 Identify procedures used for the inspection, care, and maintenance of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 | NFPA® 1001, 5.5.1 TOP: Firefighter I 161. ANS: C PTS: 1 REF: 357 OBJ: 7.I.5 Identify procedures used for the inspection, care, and maintenance of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 | NFPA® 1001, 5.5.1 TOP: Firefighter I 162. ANS: A PTS: 1 REF: 358 OBJ: 7.I.5 Identify procedures used for the inspection, care, and maintenance of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 | NFPA® 1001, 5.5.1 TOP: Firefighter I 163. ANS: C PTS: 1 REF: 358 OBJ: 7.I.5 Identify procedures used for the inspection, care, and maintenance of portable fire extinguishers. NAT: NFPA® 1001, 5.3.16 | NFPA® 1001, 5.5.1 TOP: Firefighter I 164. ANS: B PTS: 1 REF: 371 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 165. ANS: A PTS: 1 REF: 371 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 166. ANS: D PTS: 1 REF: 371 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 167. ANS: C PTS: 1 REF: 372 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 168. ANS: C PTS: 1 REF: 373 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 169. ANS: A PTS: 1 REF: 374 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 170. ANS: C PTS: 1 REF: 374 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 171. ANS: A PTS: 1 REF: 375 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 172. ANS: B PTS: 1 REF: 375 OBJ: 8.I.1 Compare and contrast the characteristics of life safety rope and utility rope. NAT: NFPA® 1001, 5.3.2 TOP: Firefighter I 173. ANS: C PTS: 1 REF: 376 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 174. ANS: C PTS: 1 REF: 376 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 175. ANS: D PTS: 1 REF: 377
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OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 176. ANS: C PTS: 1 REF: 378 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 177. ANS: A PTS: 1 REF: 379 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 178. ANS: B PTS: 1 REF: 381 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 179. ANS: C PTS: 1 REF: 381 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 180. ANS: B PTS: 1 REF: 381 OBJ: 8.I.2 Summarize basic guidelines for rope maintenance. | 8.I.3 Explain reasons for placing rope out of service. NAT: NFPA® 1001, 5.5.1 | NFPA® 1001, 5.3.20 TOP: Firefighter I 181. ANS: A PTS: 1 REF: 382 OBJ: 8.I.4 Describe webbing and webbing construction. NAT: NFPA® 1001, 5.3.20 TOP: Firefighter I 182. ANS: C PTS: 1 REF: 382 OBJ: 8.I.4 Describe webbing and webbing construction. NAT: NFPA® 1001, 5.3.20 TOP: Firefighter I 183. ANS: C PTS: 1 REF: 382 OBJ: 8.I.4 Describe webbing and webbing construction. NAT: NFPA® 1001, 5.3.20 TOP: Firefighter I 184. ANS: B PTS: 1 REF: 384 OBJ: 8.I.4 Describe webbing and webbing construction. NAT: NFPA® 1001, 5.3.20 TOP: Firefighter I 185. ANS: C PTS: 1 REF: 384 OBJ: 8.I.5 Describe parts of a rope and considerations in tying a knot. | 8.I.6 Describe knot characteristics and knot elements. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 186. ANS: B PTS: 1 REF: 384 OBJ: 8.I.5 Describe parts of a rope and considerations in tying a knot. | 8.I.6 Describe knot characteristics and knot elements. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 187. ANS: A PTS: 1 REF: 384 OBJ: 8.I.5 Describe parts of a rope and considerations in tying a knot. | 8.I.6 Describe knot characteristics and knot elements. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 188. ANS: C PTS: 1 REF: 385 OBJ: 8.I.5 Describe parts of a rope and considerations in tying a knot. | 8.I.6 Describe knot characteristics and knot elements. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20
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TOP: Firefighter I 189. ANS: D PTS: 1 REF: 387 OBJ: 8.I.7 Describe characteristics of knots commonly used in the fire service. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 190. ANS: C PTS: 1 REF: 388 OBJ: 8.I.7 Describe characteristics of knots commonly used in the fire service. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 191. ANS: B PTS: 1 REF: 388 OBJ: 8.I.7 Describe characteristics of knots commonly used in the fire service. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 192. ANS: D PTS: 1 REF: 389 OBJ: 8.I.7 Describe characteristics of knots commonly used in the fire service. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 193. ANS: B PTS: 1 REF: 390 OBJ: 8.I.8 Select commonly used rope hardware for specific applications. | 8.I.9 Summarize hoisting safety considerations. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 194. ANS: C PTS: 1 REF: 390 OBJ: 8.I.8 Select commonly used rope hardware for specific applications. | 8.I.9 Summarize hoisting safety considerations. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 195. ANS: A PTS: 1 REF: 394 OBJ: 8.I.8 Select commonly used rope hardware for specific applications. | 8.I.9 Summarize hoisting safety considerations. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I 196. ANS: C PTS: 1 REF: 396 OBJ: 8.I.8 Select commonly used rope hardware for specific applications. | 8.I.9 Summarize hoisting safety considerations. NAT: NFPA® 1001, 5.1.2 | NFPA® 1001, 5.3.20 TOP: Firefighter I
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Chemistry
ISBN:9781285644561
Author:Seager
Publisher:Cengage
Text book image
Chemistry In Focus
Chemistry
ISBN:9781337399692
Author:Tro, Nivaldo J.
Publisher:Cengage Learning,
Text book image
World of Chemistry, 3rd edition
Chemistry
ISBN:9781133109655
Author:Steven S. Zumdahl, Susan L. Zumdahl, Donald J. DeCoste
Publisher:Brooks / Cole / Cengage Learning
Text book image
Chemistry
Chemistry
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Cengage Learning
Text book image
Chemistry: An Atoms First Approach
Chemistry
ISBN:9781305079243
Author:Steven S. Zumdahl, Susan A. Zumdahl
Publisher:Cengage Learning
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ISBN:9781133611097
Author:Steven S. Zumdahl
Publisher:Cengage Learning
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