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Question 1 of 30
1. Question
A bearing with no intermediate bedding material.
Correct
Bearing length, the length of support, supported member or intermediate bedding material (whichever is the least) measured along the line of support. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Bearing length, the length of support, supported member or intermediate bedding material (whichever is the least) measured along the line of support. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 2 of 30
2. Question
Constructed by interconnecting more than one rolled section to form a single member.
Correct
Built-up, constructed by interconnecting more than one rolled section to form a single member. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
Incorrect
Built-up, constructed by interconnecting more than one rolled section to form a single member. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
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Question 3 of 30
3. Question
In Code of Practice for foundations 2017, what does GEO means?
Correct
GEO means Geotechnical Engineering Office in code of practice for foundation. (Code of Practice for foundations 2017 – 1.3 Abbreviations).
Incorrect
GEO means Geotechnical Engineering Office in code of practice for foundation. (Code of Practice for foundations 2017 – 1.3 Abbreviations).
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Question 4 of 30
4. Question
Sealant which has predominantly plastic properties with some elastic recovery when deformed for short periods.
Correct
Plastoelastic sealant, sealant which has predominantly plastic properties with some elastic recovery when deformed for short periods. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Plastoelastic sealant, sealant which has predominantly plastic properties with some elastic recovery when deformed for short periods. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 5 of 30
5. Question
In basis of design, adequate durability for its environment. “Aps” stands for?
Correct
“Aps” is the area of pre-stressing tendons in tension zone. (Code of Practice for Structural Use of Concrete 2013 – 2.1.1 Aim of design).
Incorrect
“Aps” is the area of pre-stressing tendons in tension zone. (Code of Practice for Structural Use of Concrete 2013 – 2.1.1 Aim of design).
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Question 6 of 30
6. Question
A tie crossing another tie at right angles may be considered anchored if the bars extend 12 times the bar diameter or an equivalent anchorage beyond the other tie.
Correct
Tie anchorage, a tie crossing another tie at right angles may be considered anchored if the bars extend 12 times the bar diameter or an equivalent anchorage beyond the other tie. (Code of Practice for Precast Concrete Construction 2016 – 2.7.8 Design of ties).
Incorrect
Tie anchorage, a tie crossing another tie at right angles may be considered anchored if the bars extend 12 times the bar diameter or an equivalent anchorage beyond the other tie. (Code of Practice for Precast Concrete Construction 2016 – 2.7.8 Design of ties).
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Question 7 of 30
7. Question
A cross-section with sufficient rotation capacity to allow redistribution of bending moments within a continuous member or frame.
Correct
A cross-section with sufficient rotation capacity to allow redistribution of bending moments within a continuous member or frame. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
Incorrect
A cross-section with sufficient rotation capacity to allow redistribution of bending moments within a continuous member or frame. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
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Question 8 of 30
8. Question
Element of a structure that connects members together and enables forces and moments to be transmitted between them.
Correct
Joint, element of a structure that connects members together and enables forces and moments to be transmitted between them. (Code of practice for the structural use of steel 2011 – 1.4.6 Connection definitions).
Incorrect
Joint, element of a structure that connects members together and enables forces and moments to be transmitted between them. (Code of practice for the structural use of steel 2011 – 1.4.6 Connection definitions).
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Question 9 of 30
9. Question
A plastic-like solid material used to separate glass and other brittle materials from contact with each other or supporting frames.
Correct
Gasket, a plastic-like solid material used to separate glass and other brittle materials from contact with each other or supporting frames. (Code of practice for structural use of glass 2018 – 1.3 Glossary of Terms and Definitions).
Incorrect
Gasket, a plastic-like solid material used to separate glass and other brittle materials from contact with each other or supporting frames. (Code of practice for structural use of glass 2018 – 1.3 Glossary of Terms and Definitions).
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Question 10 of 30
10. Question
Damage to a structural member caused by repeated application of stresses that are insufficient to cause failure by a single application.
Correct
Fatigue, damage to a structural member caused by repeated application of stresses that are insufficient to cause failure by a single application. (Code of practice for the structural use of steel 2011 – 1.4.4 Material behavior definitions).
Incorrect
Fatigue, damage to a structural member caused by repeated application of stresses that are insufficient to cause failure by a single application. (Code of practice for the structural use of steel 2011 – 1.4.4 Material behavior definitions).
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Question 11 of 30
11. Question
Framed glazing in an opening of an external wall to allow natural light and/or ventilation through the building.
Correct
Window, a framed glazing in an opening of an external wall to allow natural light and/or ventilation through the building. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
Incorrect
Window, a framed glazing in an opening of an external wall to allow natural light and/or ventilation through the building. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
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Question 12 of 30
12. Question
Reinforcing steel preventing cracking of concrete should be provided in both faces of panels that are subjected to substantial.
Correct
Thermal gradient, reinforcing steel preventing cracking of concrete should be provided in both faces of panels that are subjected to substantial thermal gradients. (Code of Practice for Precast Concrete Construction 2016 – 2.2.6 Thermal gradient).
Incorrect
Thermal gradient, reinforcing steel preventing cracking of concrete should be provided in both faces of panels that are subjected to substantial thermal gradients. (Code of Practice for Precast Concrete Construction 2016 – 2.2.6 Thermal gradient).
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Question 13 of 30
13. Question
A wall with lateral supports lateral supports horizontal, vertical or inclined elements able to transmit lateral forces from a braced wall to the principal structural bracing or to the foundations.
Correct
Braced wall, a wall with lateral supports lateral supports horizontal, vertical or inclined elements able to transmit lateral forces from a braced wall to the principal structural bracing or to the foundations. (Code of Practice for Structural Use of Concrete 2013 – Glossary 1.4.4 Terms specific to walls).
Incorrect
Braced wall, a wall with lateral supports lateral supports horizontal, vertical or inclined elements able to transmit lateral forces from a braced wall to the principal structural bracing or to the foundations. (Code of Practice for Structural Use of Concrete 2013 – Glossary 1.4.4 Terms specific to walls).
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Question 14 of 30
14. Question
Section with a central web and two flanges that has an overall depth greater than 1.2 times its overall width.
Correct
I-section, section with a central web and two flanges that has an overall depth greater than 1.2 times its overall width. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
Incorrect
I-section, section with a central web and two flanges that has an overall depth greater than 1.2 times its overall width. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
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Question 15 of 30
15. Question
Horizontal ties generally should be arranged in continuous lines wherever practicable, and distributed throughout each floor and roof level in two directions approximately at right angles.
Correct
General tying, horizontal ties generally should be arranged in continuous lines wherever practicable, and distributed throughout each floor and roof level in two directions approximately at right angles. (Code of practice for the structural use of steel 2011 – 2.3.4.3 Avoidance of disproportionate collapse).
Incorrect
General tying, horizontal ties generally should be arranged in continuous lines wherever practicable, and distributed throughout each floor and roof level in two directions approximately at right angles. (Code of practice for the structural use of steel 2011 – 2.3.4.3 Avoidance of disproportionate collapse).
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Question 16 of 30
16. Question
The penetration formed in rock for embedding a portion of a pile.
Correct
Rock socket. The penetration formed in rock for embedding a portion of a pile. (Code of Practice for foundations 2017 – 1.2 Glossary).
Incorrect
Rock socket. The penetration formed in rock for embedding a portion of a pile. (Code of Practice for foundations 2017 – 1.2 Glossary).
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Question 17 of 30
17. Question
Verifying the surface compressive stress of tempered glass should be carried out to each batch of tempered glass in accordance with section 10 of BS EN 14179-1 after the heat soak process by the glass manufacturer from representative batch of glass as quality control record during glass production.
Correct
Fragmentation test for verifying the surface compressive stress of tempered glass should be carried out to each batch of tempered glass in accordance with section 10 of BS EN 14179-1 after the heat soak process by the glass manufacturer from representative batch of glass as quality control record during glass production. (Code of Practice for the Structural Use of Glass 2018 – 8.1 Glass).
Incorrect
Fragmentation test for verifying the surface compressive stress of tempered glass should be carried out to each batch of tempered glass in accordance with section 10 of BS EN 14179-1 after the heat soak process by the glass manufacturer from representative batch of glass as quality control record during glass production. (Code of Practice for the Structural Use of Glass 2018 – 8.1 Glass).
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Question 18 of 30
18. Question
Design of bearing which is based on the weaker of the two bearing surfaces and is calculated as follows: 0.4fcu for dry bearing on the concrete; 0.6fcu for bedded bearing on concrete; or 0.8fcu for contact face of a steel bearing plate cast into a member or support, with each dimension not exceeding 40% of the corresponding concrete dimension.
Correct
Design ultimate bearing stress is based on the weaker of the two bearing surfaces and is calculated as follows: 0.4fcu for dry bearing on the concrete; 0.6fcu for bedded bearing on concrete; or 0.8fcu for contact face of a steel bearing plate cast into a member or support, with each dimension not exceeding 40% of the corresponding concrete dimension. (Code of Practice for Precast Concrete Construction 2016 – 2.7.9 Design of bearings).
Incorrect
Design ultimate bearing stress is based on the weaker of the two bearing surfaces and is calculated as follows: 0.4fcu for dry bearing on the concrete; 0.6fcu for bedded bearing on concrete; or 0.8fcu for contact face of a steel bearing plate cast into a member or support, with each dimension not exceeding 40% of the corresponding concrete dimension. (Code of Practice for Precast Concrete Construction 2016 – 2.7.9 Design of bearings).
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Question 19 of 30
19. Question
If wind load does not govern, stability should be checked for a minimum notional horizontal force acting at each floor level equals to what percent of the characteristic dead load between mid-heights of the story under and above or the roof surface, as appropriate?
Correct
1.5%. If wind load does not govern, stability should be checked for a minimum notional horizontal force acting at each floor level equals to 1.5% of the characteristic dead load between mid-heights of the story under and above or the roof surface. (Code of Practice for Precast Concrete Construction 2016 – 2.3.1 Stability – General).
Incorrect
1.5%. If wind load does not govern, stability should be checked for a minimum notional horizontal force acting at each floor level equals to 1.5% of the characteristic dead load between mid-heights of the story under and above or the roof surface. (Code of Practice for Precast Concrete Construction 2016 – 2.3.1 Stability – General).
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Question 20 of 30
20. Question
A precast concrete structural system should have strength and ductility capacity equivalent to that provided by a comparable monolithic reinforced concrete structure.
Correct
Equivalent monolithic system, a precast concrete structural system should have strength and ductility capacity equivalent to that provided by a comparable monolithic reinforced concrete structure. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Equivalent monolithic system, a precast concrete structural system should have strength and ductility capacity equivalent to that provided by a comparable monolithic reinforced concrete structure. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 21 of 30
21. Question
Load such as earth movement, impact of construction vehicles.
Correct
Accidental load, load such as earth movement, impact of construction vehicles. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Accidental load, load such as earth movement, impact of construction vehicles. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 22 of 30
22. Question
A wall where the effective height divided by the thickness (le/h) does not exceed 15 (braced) or 10 (unbraced).
Correct
Stocky wall, a wall where the effective height divided by the thickness (le/h) does not exceed 15 (braced) or 10 (unbraced). (Code of Practice for Structural Use of Concrete 2013 – 1.4.4 Terms specific to walls).
Incorrect
Stocky wall, a wall where the effective height divided by the thickness (le/h) does not exceed 15 (braced) or 10 (unbraced). (Code of Practice for Structural Use of Concrete 2013 – 1.4.4 Terms specific to walls).
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Question 23 of 30
23. Question
Horizontal load-bearing element predominantly subject to bending.
Correct
Members glass beam, horizontal load-bearing element predominantly subject to bending. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
Incorrect
Members glass beam, horizontal load-bearing element predominantly subject to bending. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
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Question 24 of 30
24. Question
Horizontal member in curtain wall or glass wall system that directly supports a glass/cladding element.
Correct
Transom, horizontal member in curtain wall or glass wall system that directly supports a glass/cladding element. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
Incorrect
Transom, horizontal member in curtain wall or glass wall system that directly supports a glass/cladding element. (Code of Practice for the Structural Use of Glass 2018 – 1.3 Glossary of terms and definitions).
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Question 25 of 30
25. Question
Compound section, sections, or plates and sections, interconnected to form a single member.
Correct
Compound section, sections, or plates and sections, interconnected to form a single member. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
Incorrect
Compound section, sections, or plates and sections, interconnected to form a single member. (Code of practice for the structural use of steel 2011 – 1.4.5 Section type definitions).
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Question 26 of 30
26. Question
A bearing with no intermediate bedding material.
Correct
Dry bearing, a bearing with no intermediate bedding material. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
Incorrect
Dry bearing, a bearing with no intermediate bedding material. (Code of Practice for Precast Concrete Construction 2016 – 1.2 Definitions).
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Question 27 of 30
27. Question
For the purposes of the Code of Practice for concrete construction, what does this symbol means, “Fy”?
Correct
“Fy” in code of practice for concrete construction means, characteristic strength of reinforcement (Code of Practice for Precast Concrete Construction 2016 – 1.3 Symbols).
Incorrect
“Fy” in code of practice for concrete construction means, characteristic strength of reinforcement (Code of Practice for Precast Concrete Construction 2016 – 1.3 Symbols).
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Question 28 of 30
28. Question
Structural should be a complete and comprehensive set of drawings showing plans, sections, elevations and connection details of the different types of precast components used.
Correct
Layout plan is a structural plan should be a complete and comprehensive set of drawings showing plans, sections, elevations and connection details of the different types of precast components used. (Code of Practice for Precast Concrete Construction 2016 – 2.2.4 Layout Plan).
Incorrect
Layout plan is a structural plan should be a complete and comprehensive set of drawings showing plans, sections, elevations and connection details of the different types of precast components used. (Code of Practice for Precast Concrete Construction 2016 – 2.2.4 Layout Plan).
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Question 29 of 30
29. Question
It has to be formed from a suitably durable material and should have adequate strength to carry the full imposed loads. Direct concrete to concrete, or concrete to steel bearing should be avoided.
Correct
Levelling shims should be formed from a suitably durable material and should have adequate strength to carry the full imposed loads. Direct concrete to concrete, or concrete to steel bearing should be avoided. (Code of Practice for Precast Concrete Construction 2016 – 3.16.7 Levelling shims).
Incorrect
Levelling shims should be formed from a suitably durable material and should have adequate strength to carry the full imposed loads. Direct concrete to concrete, or concrete to steel bearing should be avoided. (Code of Practice for Precast Concrete Construction 2016 – 3.16.7 Levelling shims).
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Question 30 of 30
30. Question
A single storey frame with rigid moment-resisting joints.
Correct
Portal frame is a single storey frame with rigid moment-resisting joints. (Code of practice for the structural use of steel 2011 – 1.4.2 Structural element definitions).
Incorrect
Portal frame is a single storey frame with rigid moment-resisting joints. (Code of practice for the structural use of steel 2011 – 1.4.2 Structural element definitions).