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Building Services.
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Question 1 of 30
1. Question
Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, but automatic in operation and fixed in position, e.g. a sprayer unit in a Dangerous Goods store.
Correct
Fixed automatically operated approved appliance. Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, but automatic in operation and fixed in position, e.g. a sprayer unit in a Dangerous Goods store. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Fixed automatically operated approved appliance. Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, but automatic in operation and fixed in position, e.g. a sprayer unit in a Dangerous Goods store. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 2 of 30
2. Question
Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, e.g. water type, foam, inert gas, any chemical extinguishers, fire blankets and sand buckets
Correct
Portable hand-operated approved appliance. Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, e.g. water type, foam, inert gas, any chemical extinguishers, fire blankets and sand buckets. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Portable hand-operated approved appliance. Any fire service equipment which is manufactured, used or designed to be used as an independent unit for the purpose of extinguishing, attacking, preventing or limiting a fire, e.g. water type, foam, inert gas, any chemical extinguishers, fire blankets and sand buckets. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 3 of 30
3. Question
A compartment situated at street level having direct access to open-air and vehicular approach containing annunciator boards, controls, terminals, etc. of the fire protection and life safety systems within that building/complex.
Correct
Fire control center. A compartment situated at street level having direct access to open air and vehicular approach containing annunciator boards, controls, terminals, etc. of the fire protection and life safety systems within that building/complex. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Fire control center. A compartment situated at street level having direct access to open air and vehicular approach containing annunciator boards, controls, terminals, etc. of the fire protection and life safety systems within that building/complex. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 4 of 30
4. Question
A fixed illuminated sign indicating an approved exit route.
Correct
Exit sign. A fixed illuminated sign indicating an approved exit route. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Exit sign. A fixed illuminated sign indicating an approved exit route. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 5 of 30
5. Question
A system designed to protect staircases against the ingress of smoke by maintaining the air within staircases at pressures higher than those in adjacent parts of the building. The number of staircase(s) requiring pressurization shall be determined by the cubical extent of the basement, or building.
Correct
Pressurization of staircase. A system designed to protect staircases against the ingress of smoke by maintaining the air within staircases at pressures higher than those in adjacent parts of the building. The number of staircase(s) requiring pressurization shall be determined by the cubical extent of the basement, or building. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Pressurization of staircase. A system designed to protect staircases against the ingress of smoke by maintaining the air within staircases at pressures higher than those in adjacent parts of the building. The number of staircase(s) requiring pressurization shall be determined by the cubical extent of the basement, or building. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 6 of 30
6. Question
Cross passage designed to enable users inside a tube of a twin-tube tunnel to travel to another tube of the tunnel for escape purposes.
Correct
Pedestrian cross over facility. Cross passage designed to enable users inside a tube of a twin-tube tunnel to travel to another tube of the tunnel for escape purposes. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Pedestrian cross over facility. Cross passage designed to enable users inside a tube of a twin-tube tunnel to travel to another tube of the tunnel for escape purposes. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 7 of 30
7. Question
Premises used for audio/visual production such as film and television studios.
Correct
Audio/Visual Production Facilities. Premises used for audio/visual production such as film and television studios. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Audio/Visual Production Facilities. Premises used for audio/visual production such as film and television studios. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 8 of 30
8. Question
Any stories of a building below the ground stories and from which all required exit routes are in an upward direction to the ground stories.
Correct
Basement Stories. Any stories of a building below the ground stories and from which all required exit routes are in an upward direction to the ground stories. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Basement Stories. Any stories of a building below the ground stories and from which all required exit routes are in an upward direction to the ground stories. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 9 of 30
9. Question
A valve in a water service that opens to admit air if the pressure within the water service falls below atmospheric pressure.
Correct
Anti-vacuum Valve. A valve in a water service that opens to admit air if the pressure within the water service falls below atmospheric pressure. (Handbook on Plumbing Installation for Buildings – 1.3 Commonly used waterworks liftings).
Incorrect
Anti-vacuum Valve. A valve in a water service that opens to admit air if the pressure within the water service falls below atmospheric pressure. (Handbook on Plumbing Installation for Buildings – 1.3 Commonly used waterworks liftings).
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Question 10 of 30
10. Question
A valve in which a disc is rotated about a diametric axis of a cylinder to vary the aperture. It is used where space is limited or more sophisticated control is required.
Correct
Butterfly Valve. A valve in which a disc is rotated about a diametric axis of a cylinder to vary the aperture. It is used where space is limited or more sophisticated control is required. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
Incorrect
Butterfly Valve. A valve in which a disc is rotated about a diametric axis of a cylinder to vary the aperture. It is used where space is limited or more sophisticated control is required. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
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Question 11 of 30
11. Question
The height of the ventilation outlet to free air should be what “m” above footpath or street level. The hot air outlet stream should be directed away from personnel on the footpath nearby.
Correct
The height of the ventilation outlet to free air should be 2.5m above footpath or street level. The hot air outlet stream should be directed away from personnel on the footpath nearby. (Code of practice 101 for distribution substation design version 14.0 – 6 Ventilation design).
Incorrect
The height of the ventilation outlet to free air should be 2.5m above footpath or street level. The hot air outlet stream should be directed away from personnel on the footpath nearby. (Code of practice 101 for distribution substation design version 14.0 – 6 Ventilation design).
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Question 12 of 30
12. Question
A closed vessel for accommodating the thermal expansion of water in a pressurized hot water heating system.
Correct
Expansion Vessel. A closed vessel for accommodating the thermal expansion of water in a pressurized hot water heating system. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
Incorrect
Expansion Vessel. A closed vessel for accommodating the thermal expansion of water in a pressurized hot water heating system. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
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Question 13 of 30
13. Question
An enclosed vessel in which water is heated by the direct application of heat.
Correct
Boiler. An enclosed vessel in which water is heated by the direct application of heat. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
Incorrect
Boiler. An enclosed vessel in which water is heated by the direct application of heat. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
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Question 14 of 30
14. Question
A self-acting valve that automatically opens to prevent a predetermined safe temperature being exceeded.
Correct
Temperature Relief Valve. A self-acting valve that automatically opens to prevent a predetermined safe temperature being exceeded. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
Incorrect
Temperature Relief Valve. A self-acting valve that automatically opens to prevent a predetermined safe temperature being exceeded. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
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Question 15 of 30
15. Question
A self-acting valve that automatically opens to prevent a predetermined safe pressure being exceeded.
Correct
Pressure Relief Valve. A self-acting valve that automatically opens to prevent a predetermined safe pressure being exceeded. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
Incorrect
Pressure Relief Valve. A self-acting valve that automatically opens to prevent a predetermined safe pressure being exceeded. (Handbook on Plumbing Installation for Buildings – 1.3 – Commonly used waterworks liftings).
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Question 16 of 30
16. Question
What does “BS” means in the abbreviation of Handbook on plumbing installation for building?
Correct
BS stands for British standards in the Handbook on plumbing installation for building. (Handbook on Plumbing Installation for Buildings – 1.2 – Abbreviations).
Incorrect
BS stands for British standards in the Handbook on plumbing installation for building. (Handbook on Plumbing Installation for Buildings – 1.2 – Abbreviations).
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Question 17 of 30
17. Question
An air conditioning equipment that includes evaporator, compressor, condenser, and regulator controls, which serves to supply chilled water.
Correct
Chiller, means an air conditioning equipment that includes evaporator, compressor, condenser, and regulator controls, which serves to supply chilled water. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Chiller, means an air conditioning equipment that includes evaporator, compressor, condenser, and regulator controls, which serves to supply chilled water. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 18 of 30
18. Question
A system that controls the dry-bulb temperature within a space by varying the temperature of supply air that is maintained at constant volume flow to the space.
Correct
Constant air volume (CAV) air distribution system, means a system that controls the dry-bulb temperature within a space by varying the temperature of supply air that is maintained at constant volume flow to the space. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Constant air volume (CAV) air distribution system, means a system that controls the dry-bulb temperature within a space by varying the temperature of supply air that is maintained at constant volume flow to the space. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 19 of 30
19. Question
Monitor data in analog or binary form, is converted to digital format for manipulations and calculations by a micro-processer and then converted back to analog or binary form to control physical devices.
Correct
Direct digital control (DDC) means a type of control where controlled and monitored data, in analog or binary form, is converted to digital format for manipulations and calculations by a micro-processer and then converted back to analog or binary form to control physical devices. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Direct digital control (DDC) means a type of control where controlled and monitored data, in analog or binary form, is converted to digital format for manipulations and calculations by a micro-processer and then converted back to analog or binary form to control physical devices. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 20 of 30
20. Question
The power electronics mechanism to control the output performance including speed, rotation, torque etc. of the controlling motor.
Correct
Driving controller, means the power electronics mechanism to control the output performance including speed, rotation, torque etc. of the controlling motor. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Driving controller, means the power electronics mechanism to control the output performance including speed, rotation, torque etc. of the controlling motor. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 21 of 30
21. Question
A lift which will be loaded and unloaded by industrial truck, and the loading is not necessarily evenly distributed over the floor, and the weight of any single piece of freight and its truck can exceed a quarter of the rated load of the lift.
Correct
Industrial truck loaded freight lift. A lift which will be loaded and unloaded by industrial truck, and the loading is not necessarily evenly distributed over the floor, and the weight of any single piece of freight and its truck can exceed a quarter of the rated load of the lift. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Industrial truck loaded freight lift. A lift which will be loaded and unloaded by industrial truck, and the loading is not necessarily evenly distributed over the floor, and the weight of any single piece of freight and its truck can exceed a quarter of the rated load of the lift. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 22 of 30
22. Question
A lift mainly intended for the transport of goods, which are generally accompanied by persons handling the goods
Correct
Freight lift means a lift mainly intended for the transport of goods, which are generally accompanied by persons handling the goods. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Freight lift means a lift mainly intended for the transport of goods, which are generally accompanied by persons handling the goods. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 23 of 30
23. Question
A measuring instrument to measure, register or indicate the value of voltage, current, power factor, electrical consumption or demand, water flow, energy input/output.
Correct
Meter means a measuring instrument to measure, register or indicate the value of voltage, current, power factor, electrical consumption or demand, water flow, energy input/output etc. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Meter means a measuring instrument to measure, register or indicate the value of voltage, current, power factor, electrical consumption or demand, water flow, energy input/output etc. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 24 of 30
24. Question
The conditions such as weather conditions, thermostat settings, and schedules, internal heat gain, operating schedules that are used for calculating a building’s annual energy consumption.
Correct
Modeling assumptions in the context of the performance-based approach means the conditions such as weather conditions, thermostat settings and schedules, internal heat gain, operating schedules that are used for calculating a building’s annual energy consumption. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
Incorrect
Modeling assumptions in the context of the performance-based approach means the conditions such as weather conditions, thermostat settings and schedules, internal heat gain, operating schedules that are used for calculating a building’s annual energy consumption. (Code of practice for efficiency of building services installation 2018 – 2 Interpretations and Abbreviations).
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Question 25 of 30
25. Question
In relation to the total energy consumption of the central building services installations in a building, means dividing total energy consumption for a specific period by the total internal floor area of the building
Correct
Energy utilization index, in relation to the total energy consumption of the central building services installations in a building, means dividing total energy consumption for a specific period by the total internal floor area of the building. (Code for practice for building energy audit 2012 – 2 Interpretation).
Incorrect
Energy utilization index, in relation to the total energy consumption of the central building services installations in a building, means dividing total energy consumption for a specific period by the total internal floor area of the building. (Code for practice for building energy audit 2012 – 2 Interpretation).
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Question 26 of 30
26. Question
The mechanism of a set of speed reduction gears transferring the power from the motor shaft to the drive sheave in a traction drive lift system or to the chain or drum drive for the pallets or steps in an escalator or conveyor system.
Correct
Mechanical drive, means the mechanism of a set of speed reduction gears transferring the power from the motor shaft to the drive sheave in a traction drive lift system or to the chain or drum drive for the pallets or steps in an escalator or conveyor system. (Code of practice for energy efficiency of building services installation 2018 2 – 2 Interpretations and abbreviation).
Incorrect
Mechanical drive, means the mechanism of a set of speed reduction gears transferring the power from the motor shaft to the drive sheave in a traction drive lift system or to the chain or drum drive for the pallets or steps in an escalator or conveyor system. (Code of practice for energy efficiency of building services installation 2018 2 – 2 Interpretations and abbreviation).
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Question 27 of 30
27. Question
A lobby with self-closing doors fitted with panic bolt leading to the adjacent communal area of the building shall be provided.
Correct
Protected lobby. A lobby with self-closing doors fitted with panic bolt leading to the adjacent communal area of the building shall be provided. (Code of practice 101 for distribution substation design version 14.0).
Incorrect
Protected lobby. A lobby with self-closing doors fitted with panic bolt leading to the adjacent communal area of the building shall be provided. (Code of practice 101 for distribution substation design version 14.0).
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Question 28 of 30
28. Question
The vertical distance between the floor level of substation and the floor level of lifting plant shall not be greater than:
Correct
The vertical distance between the floor level of substation and the floor level of lifting plant shall not be greater than 4.5m. (Code of practice 101 for distribution substation design version 14.0).
Incorrect
The vertical distance between the floor level of substation and the floor level of lifting plant shall not be greater than 4.5m. (Code of practice 101 for distribution substation design version 14.0).
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Question 29 of 30
29. Question
A warehouse or any building used wholly or in part for the storage of goods or raw material of any kind.
Correct
Godown. A warehouse or any building used wholly or in part for the storage of goods or raw material of any kind. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
Incorrect
Godown. A warehouse or any building used wholly or in part for the storage of goods or raw material of any kind. (Code of practice for minimum fire service installations and equipment 2012 – 2.2 Definitions).
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Question 30 of 30
30. Question
The set of fire safety provisions must be maintained as a result of a performance-based approach to the fire safety design and that if altered will invalidate the performance-based fire safety design.
Correct
Bounding condition, means the set of fire safety provisions that must be maintained as a result of a performance-based approach to the fire safety design and that if altered will invalidate the performance-based fire safety design. (Code of practice for fire safety in buildings 2011 – Section 3 Definitions).
Incorrect
Bounding condition, means the set of fire safety provisions that must be maintained as a result of a performance-based approach to the fire safety design and that if altered will invalidate the performance-based fire safety design. (Code of practice for fire safety in buildings 2011 – Section 3 Definitions).