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Question 1 of 30
1. Question
Clear or patterned glass processed by craftsmen for decorative effect. Sand-blasted, acid-etched, embossed, fritted and printed glass fall into this category. Decorative interlayers may also be incorporated in laminated glass.
Correct
Decorative glass is a clear or patterned glass processed by craftsmen for decorative effect. Sand-blasted, acid-etched, embossed, fritted and printed glass fall into this category. Decorative interlayers may also be incorporated in laminated glass. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
Incorrect
Decorative glass is a clear or patterned glass processed by craftsmen for decorative effect. Sand-blasted, acid-etched, embossed, fritted and printed glass fall into this category. Decorative interlayers may also be incorporated in laminated glass. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
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Question 2 of 30
2. Question
This technique is the most commonly used method of determining wind-induced loads and responses of tall buildings.
Correct
The high-frequency force-balance (or base balance) technique is the most commonly used method of determining wind-induced loads and responses of tall buildings. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
Incorrect
The high-frequency force-balance (or base balance) technique is the most commonly used method of determining wind-induced loads and responses of tall buildings. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
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Question 3 of 30
3. Question
What is the weight percentage of lime in typical composition and physical properties of soda lime silicate glass?
Correct
5% – 14% is the weight percentage of lime in soda-lime silicate glass. (Code of Practice for the Structural Use of Glass 2018 – 4.1.2 Glass Material – Table 4.1).
Incorrect
5% – 14% is the weight percentage of lime in soda-lime silicate glass. (Code of Practice for the Structural Use of Glass 2018 – 4.1.2 Glass Material – Table 4.1).
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Question 4 of 30
4. Question
Part of a larger frame segment a portion of the length of a member, between adjacent points that are laterally restrained.
Correct
Sub-frame, part of a larger frame segment a portion of the length of a member, between adjacent points that are laterally restrained. (Code of practice for the structural use of steel 2011 – 1.4.2 Structural element definitions).
Incorrect
Sub-frame, part of a larger frame segment a portion of the length of a member, between adjacent points that are laterally restrained. (Code of practice for the structural use of steel 2011 – 1.4.2 Structural element definitions).
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Question 5 of 30
5. Question
It is authorized code in defining of dynamic sensitive structure that the Height exceeding 5 times the least horizontal dimension or a fundamental natural frequency less than 1.0 Hz.
Correct
ASCE Standard ASCE 7-02. Height exceeding 5 times the least horizontal dimension or a fundamental natural frequency less than 1.0 Hz. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 3 Table 3.1 Various Signposts for Dynamically Sensitive Structures).
Incorrect
ASCE Standard ASCE 7-02. Height exceeding 5 times the least horizontal dimension or a fundamental natural frequency less than 1.0 Hz. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 3 Table 3.1 Various Signposts for Dynamically Sensitive Structures).
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Question 6 of 30
6. Question
Obtained by applying partial material factor to the specified minimum yield strength or tensile strength of the material.
Correct
Ultimate design strength, obtained by applying partial material factor to the specified minimum yield strength or tensile strength of the material. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
Incorrect
Ultimate design strength, obtained by applying partial material factor to the specified minimum yield strength or tensile strength of the material. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
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Question 7 of 30
7. Question
Quality control process to heat up tempered glass for a period of time to reduce the possibility of spontaneous breakage in service.
Correct
Heat soak process, quality control process to heat up tempered glass for a period of time to reduce the possibility of spontaneous breakage in service. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
Incorrect
Heat soak process, quality control process to heat up tempered glass for a period of time to reduce the possibility of spontaneous breakage in service. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
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Question 8 of 30
8. Question
In Static Structures, ABL is most conveniently modeled by the turbulent airflow over a rough surface in a wind tunnel. What is ABL stand for?
Correct
The natural wind in the Atmospheric Boundary Layer (ABL) is most conveniently modeled by the turbulent airflow over a rough surface in a wind tunnel. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Static Structures).
Incorrect
The natural wind in the Atmospheric Boundary Layer (ABL) is most conveniently modeled by the turbulent airflow over a rough surface in a wind tunnel. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Static Structures).
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Question 9 of 30
9. Question
It is the third method sometimes used to obtain structural loads. Like the high-frequency force balance technique, this employs a rigid model and requires the mathematical incorporation of the mechanical admittance function.
Correct
The ‘high-frequency pressure integration’ is the third method sometimes used to obtain structural loads. Like the high-frequency force balance technique, this employs a rigid model and requires the mathematical incorporation of the mechanical admittance function. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
Incorrect
The ‘high-frequency pressure integration’ is the third method sometimes used to obtain structural loads. Like the high-frequency force balance technique, this employs a rigid model and requires the mathematical incorporation of the mechanical admittance function. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
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Question 10 of 30
10. Question
What is the weight percentage of Soda in typical composition and physical properties of soda lime silicate glass?
Correct
10% – 16% is the weight percentage of soda in soda-lime silicate glass. (Code of Practice for the Structural Use of Glass 2018 – 4.1.2 Glass Material – Table 4.1).
Incorrect
10% – 16% is the weight percentage of soda in soda-lime silicate glass. (Code of Practice for the Structural Use of Glass 2018 – 4.1.2 Glass Material – Table 4.1).
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Question 11 of 30
11. Question
Tests physically simulate the dynamic characteristics of the prototype building.
Correct
Aero-elastic tests physically simulate the dynamic characteristics of the prototype building. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
Incorrect
Aero-elastic tests physically simulate the dynamic characteristics of the prototype building. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 5 Wind tunnel test – Dynamic Structures).
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Question 12 of 30
12. Question
It means the horizontal dimension of the building parallel to the direction of the wind.
Correct
Depth means the horizontal dimension of the building parallel to the direction of the wind. (Code of Practice on Wind Effects in Hong Kong 2004 – 2 – Definitions).
Incorrect
Depth means the horizontal dimension of the building parallel to the direction of the wind. (Code of Practice on Wind Effects in Hong Kong 2004 – 2 – Definitions).
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Question 13 of 30
13. Question
Ordinary float glass commonly manufactured by floating the molten glass on a bed of molten tin until it sets. It can be cut by scoring and snapping. It will break into large fragments with sharp edges.
Correct
Glass annealed glass, ordinary float glass commonly manufactured by floating the molten glass on a bed of molten tin until it sets. It can be cut by scoring and snapping. It will break into large fragments with sharp edges. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
Incorrect
Glass annealed glass, ordinary float glass commonly manufactured by floating the molten glass on a bed of molten tin until it sets. It can be cut by scoring and snapping. It will break into large fragments with sharp edges. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
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Question 14 of 30
14. Question
What type of exposure should use in external concrete surfaces exposed to the effects of severe rain or cyclic wetting and drying e.g. fair-faced concrete, concrete with cladding secured by dry or mechanical fixing, curtain walling?
Correct
Moderate exposure is used in External concrete surfaces exposed to the effects of severe rain or cyclic wetting and drying e.g. fair-faced concrete. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – Classification of exposure conditions).
Incorrect
Moderate exposure is used in External concrete surfaces exposed to the effects of severe rain or cyclic wetting and drying e.g. fair-faced concrete. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – Classification of exposure conditions).
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Question 15 of 30
15. Question
Glass which has been heated past its softening point and chilled rapidly to increase its strength. It breaks like annealed glass.
Correct
Heat-strengthened glass, glass which has been heated past its softening point and chilled rapidly to increase its strength. It breaks like annealed glass. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
Incorrect
Heat-strengthened glass, glass which has been heated past its softening point and chilled rapidly to increase its strength. It breaks like annealed glass. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and condition).
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Question 16 of 30
16. Question
Cover is not required to the end of a straight bar in a floor or roof unit where its end is not exposed to the weather or to condensation
Correct
Ends of straight bars, Cover is not required to the end of a straight bar in a floor or roof unit where its end is not exposed to the weather or to condensation. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – 4.2.3 Cover).
Incorrect
Ends of straight bars, Cover is not required to the end of a straight bar in a floor or roof unit where its end is not exposed to the weather or to condensation. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – 4.2.3 Cover).
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Question 17 of 30
17. Question
It is authorized code in defining of dynamic sensitive structure that the height is greater than 4 times the minimum effective width or greater than 120m.
Correct
National Building Code of Canada 1995. Height is greater than 4 times the minimum effective width or greater than 120m. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 3 Table 3.1 Various Signposts for Dynamically Sensitive Structures).
Incorrect
National Building Code of Canada 1995. Height is greater than 4 times the minimum effective width or greater than 120m. (Explanatory Materials to the Code of Practice on Wind Effects in Hong Kong 2004 – Section 3 Table 3.1 Various Signposts for Dynamically Sensitive Structures).
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Question 18 of 30
18. Question
Properties of grout can be assessed using the procedures set out in the acceptable standards. Two test methods are described in the acceptable standards i.e. the immersion method and the cone method, of which the cone test is the simpler.
Correct
Fluidity of the grout can be assessed using the procedures set out in the acceptable standards. Two test methods are described in the acceptable standards i.e. the immersion method and the cone method, of which the cone test is the simpler. (Code of Practice for Structural Use of Concrete 2013 – 10.5.7 Grouting).
Incorrect
Fluidity of the grout can be assessed using the procedures set out in the acceptable standards. Two test methods are described in the acceptable standards i.e. the immersion method and the cone method, of which the cone test is the simpler. (Code of Practice for Structural Use of Concrete 2013 – 10.5.7 Grouting).
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Question 19 of 30
19. Question
The edge regions or intersections of the cross-sections of walls, which are strengthened by confining reinforcement as specified in this clause.
Correct
Confined boundary elements are the edge regions or intersections of the cross-sections of walls, which are strengthened by confining reinforcement as specified in this clause. (Code of Practice for Structural Use of Concrete 2013 – 9.9.3 Walls).
Incorrect
Confined boundary elements are the edge regions or intersections of the cross-sections of walls, which are strengthened by confining reinforcement as specified in this clause. (Code of Practice for Structural Use of Concrete 2013 – 9.9.3 Walls).
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Question 20 of 30
20. Question
What is a necessary thing to do in Portland cement plus PFA or GGBS when compared with the total mass of Portland cement in the concrete for a Portland cement mix in order to achieve concrete of equal strength at 28 days, depending on the combination used?
Correct
Increase the total mass. In order to achieve concrete of equal strength at 28 days, depending on the combination used. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance).
Incorrect
Increase the total mass. In order to achieve concrete of equal strength at 28 days, depending on the combination used. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance).
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Question 21 of 30
21. Question
Temporary buildings or buildings which will remain in position for a period of not more than one year may be designed with wind pressures of not less than what percent of pressure?
Correct
Wind pressures should not less than 70%. (Code of Practice on Wind Effects in Hong Kong 2004 – 4 – Design wind pressure).
Incorrect
Wind pressures should not less than 70%. (Code of Practice on Wind Effects in Hong Kong 2004 – 4 – Design wind pressure).
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Question 22 of 30
22. Question
This is indicated on the building plans submitted to BD. Their weight shall be considered as dead loads and calculated according to the layout shown on the building plans.
Correct
Partitions indicated on the building plans submitted to BD for approval are considered as permanent partitions. Their weight shall be considered as dead loads and calculated according to the layout shown on the building plans. (Code of Practice for Dead and Imposed Loads 2011 – 2.2 Determination of dead loads).
Incorrect
Partitions indicated on the building plans submitted to BD for approval are considered as permanent partitions. Their weight shall be considered as dead loads and calculated according to the layout shown on the building plans. (Code of Practice for Dead and Imposed Loads 2011 – 2.2 Determination of dead loads).
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Question 23 of 30
23. Question
This shall include aluminum or metal cladding, polished granite slabs or limestone cladding, marble facing and their fixings. Finishes shall include in-situ finishes (e.g. plaster, screeds), pre-fabricated wall-panel finishes, suspended ceilings, timber.
Correct
Claddings shall include aluminum or metal cladding, polished granite slabs or limestone cladding, marble facing and their fixings. Finishes shall include in-situ finishes (e.g. plaster, screeds), pre-fabricated wall-panel finishes, suspended ceilings, timber and other floor finishes. (Code of Practice for Dead and Imposed Loads 2011 – 2.2 Determination of dead loads).
Incorrect
Claddings shall include aluminum or metal cladding, polished granite slabs or limestone cladding, marble facing and their fixings. Finishes shall include in-situ finishes (e.g. plaster, screeds), pre-fabricated wall-panel finishes, suspended ceilings, timber and other floor finishes. (Code of Practice for Dead and Imposed Loads 2011 – 2.2 Determination of dead loads).
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Question 24 of 30
24. Question
In the classification of vehicular traffic and parking areas. What are the specific use of 6A, Areas accessible to vehicles not exceeding 3,000 kg gross weight?
Correct
The specific use of 6A, Areas accessible to vehicles not exceeding 3,000 kg gross weight is private cars, taxies, van-type light goods vehicles, motorcycles. (Code of Practice for Dead and Imposed Loads 2011 – 3.3 – Class 6: Imposed Loads for Vehicular Traffic and Parking Areas).
Incorrect
The specific use of 6A, Areas accessible to vehicles not exceeding 3,000 kg gross weight is private cars, taxies, van-type light goods vehicles, motorcycles. (Code of Practice for Dead and Imposed Loads 2011 – 3.3 – Class 6: Imposed Loads for Vehicular Traffic and Parking Areas).
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Question 25 of 30
25. Question
Classification of roofs that’s Accessible roofs where access is provided in addition to such access as may be necessary for maintenance work only) or for use of Class 1 to 6.
Correct
7A, Inaccessible roofs and flat roofs where no access is provided to the roof except such access as may be necessary for maintenance work only. (Code of Practice for Dead and Imposed Loads 2011 – 3.4 Class 7: Imposed Loads for Roofs).
Incorrect
7A, Inaccessible roofs and flat roofs where no access is provided to the roof except such access as may be necessary for maintenance work only. (Code of Practice for Dead and Imposed Loads 2011 – 3.4 Class 7: Imposed Loads for Roofs).
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Question 26 of 30
26. Question
The cover required to protect the reinforcement against corrosion depends on the exposure conditions and the quality of the concrete as placed and cured immediately surrounding reinforcement.
Correct
Cover against corrosion, the cover required to protect the reinforcement against corrosion depends on the exposure conditions and the quality of the concrete as placed and cured immediately surrounding reinforcement. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – 4.2.3 Cover).
Incorrect
Cover against corrosion, the cover required to protect the reinforcement against corrosion depends on the exposure conditions and the quality of the concrete as placed and cured immediately surrounding reinforcement. (Code of Practice for Structural Use of Concrete 2013 – Chapter 4 Durability and fire resistance – 4.2.3 Cover).
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Question 27 of 30
27. Question
A concrete wall containing either no reinforcement or insufficient to satisfy the minimum quantities of reinforcement.
Correct
Plain wall a concrete wall containing either no reinforcement or insufficient to satisfy the minimum quantities of reinforcement specified in clauses 9.6.1 to 9.6.4. (Code of Practice for Structural Use of Concrete 2013 – Glossary 1.4.4 Terms specific to walls).
Incorrect
Plain wall a concrete wall containing either no reinforcement or insufficient to satisfy the minimum quantities of reinforcement specified in clauses 9.6.1 to 9.6.4. (Code of Practice for Structural Use of Concrete 2013 – Glossary 1.4.4 Terms specific to walls).
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Question 28 of 30
28. Question
in Basis of design, adequate durability for its environment. “As” stands for?
Correct
“As” is the area of tension reinforcement. (Code of Practice for Structural Use of Concrete 2013 – 2.1.1 Aim of design).
Incorrect
“As” is the area of tension reinforcement. (Code of Practice for Structural Use of Concrete 2013 – 2.1.1 Aim of design).
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Question 29 of 30
29. Question
A bearing with contact surfaces having an intermediate bedding of cementitious material.
Correct
Bedded bearing, a bearing with contact surfaces having an intermediate bedding of cementitious material. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Bedded bearing, a bearing with contact surfaces having an intermediate bedding of cementitious material. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 30 of 30
30. Question
Compressible, non-adhesive material used to fill movement joints during their construction.
Correct
Joint filler, compressible, non-adhesive material used to fill movement joints during their construction. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Joint filler, compressible, non-adhesive material used to fill movement joints during their construction. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).