file_name
string | category
string | sub_category
string | question
string | choices
sequence | answer
string | answer_option
string | prompt
string | image
image |
|---|---|---|---|---|---|---|---|---|
t11_final_001.png
|
Spatial Comprehension
|
Space Association
|
Is the café outdoor or indoor? Is it open to the sky or under shelter
|
[
"Outdoor open space and under shelter",
"Indoor and under shelter",
"Outdoor and open to sky",
"Indoor and open to sky"
] |
Indoor and under shelter
|
B
|
Question: Is the café outdoor or indoor? Is it open to the sky or under shelter
Options:
A. Outdoor open space and under shelter
B. Indoor and under shelter
C. Outdoor and open to sky
D. Indoor and open to sky
Please select one correct answer from the given options based on the image.
| |
t11_final_001.png
|
Spatial Comprehension
|
Space Association
|
How many main entrances of the building lead visitors into an outdoor open to sky space?
|
[
"3",
"1",
"4",
"2"
] |
1
|
B
|
Question: How many main entrances of the building lead visitors into an outdoor open to sky space?
Options:
A. 3
B. 1
C. 4
D. 2
Please select one correct answer from the given options based on the image.
| |
t11_final_002.png
|
Spatial Comprehension
|
Space Association
|
Which of the descriptions about the roof is true?
|
[
"Creates isolated exhibit zones",
"Provides uniform ceiling height",
"Blocks natural light",
"Allows varied ceiling heights"
] |
Provides uniform ceiling height
|
B
|
Question: Which of the descriptions about the roof is true?
Options:
A. Creates isolated exhibit zones
B. Provides uniform ceiling height
C. Blocks natural light
D. Allows varied ceiling heights
Please select one correct answer from the given options based on the image.
| |
t11_final_002.png
|
Spatial Comprehension
|
Space Association
|
What is the likely light distribution along the central path of the gallery based on both diagrams?
|
[
"Dim artificial light only",
"Harsh direct light from above",
"Even diffused light along the path",
"Focused spotlighting on exhibits"
] |
Even diffused light along the path
|
C
|
Question: What is the likely light distribution along the central path of the gallery based on both diagrams?
Options:
A. Dim artificial light only
B. Harsh direct light from above
C. Even diffused light along the path
D. Focused spotlighting on exhibits
Please select one correct answer from the given options based on the image.
| |
t11_final_003.png
|
Spatial Comprehension
|
Space Association
|
Where is the highlighted roof (in the section diagram) located on the axonometric drawing?
|
[
"II",
"III",
"IV",
"I"
] |
III
|
B
|
Question: Where is the highlighted roof (in the section diagram) located on the axonometric drawing?
Options:
A. II
B. III
C. IV
D. I
Please select one correct answer from the given options based on the image.
| |
t11_final_003.png
|
Spatial Comprehension
|
Space Association
|
How does the roof pitch at the position marked with ‘I’, ‘III’ and ‘IV’ compare to each other?
|
[
"I and IV are taller than II",
"I is taller than IV, but shorter than III",
"IV is located higher than I but shorter than III",
"I, III and IV are at the same height"
] |
I is taller than IV, but shorter than III
|
B
|
Question: How does the roof pitch at the position marked with ‘I’, ‘III’ and ‘IV’ compare to each other?
Options:
A. I and IV are taller than II
B. I is taller than IV, but shorter than III
C. IV is located higher than I but shorter than III
D. I, III and IV are at the same height
Please select one correct answer from the given options based on the image.
| |
t11_final_004.png
|
Spatial Comprehension
|
Space Association
|
Which type of plan configuration is the section drawing showing?
|
[
"Type 02",
"Type 01",
"Type 03",
"Type 04"
] |
Type 04
|
D
|
Question: Which type of plan configuration is the section drawing showing?
Options:
A. Type 02
B. Type 01
C. Type 03
D. Type 04
Please select one correct answer from the given options based on the image.
| |
t11_final_004.png
|
Spatial Comprehension
|
Space Association
|
Which part of the house is at the highest?
|
[
"Exhibition area",
"Outdoor Area",
"Bedroom",
"Entrance"
] |
Bedroom
|
C
|
Question: Which part of the house is at the highest?
Options:
A. Exhibition area
B. Outdoor Area
C. Bedroom
D. Entrance
Please select one correct answer from the given options based on the image.
| |
t11_final_005.png
|
Spatial Comprehension
|
Space Association
|
Which section line is the section drawing showing?
|
[
"Section B",
"Section A",
"Section D",
"Section C"
] |
Section A
|
B
|
Question: Which section line is the section drawing showing?
Options:
A. Section B
B. Section A
C. Section D
D. Section C
Please select one correct answer from the given options based on the image.
| |
t11_final_005.png
|
Spatial Comprehension
|
Space Association
|
Which of the spaces (I to IV) has the tallest ceiling height?
|
[
"II",
"III",
"I",
"IV"
] |
III
|
B
|
Question: Which of the spaces (I to IV) has the tallest ceiling height?
Options:
A. II
B. III
C. I
D. IV
Please select one correct answer from the given options based on the image.
| |
t11_final_006.png
|
Spatial Comprehension
|
Space Association
|
What is the building built above of?
|
[
"Mountain",
"Lake",
"Expressway",
"River"
] |
Expressway
|
C
|
Question: What is the building built above of?
Options:
A. Mountain
B. Lake
C. Expressway
D. River
Please select one correct answer from the given options based on the image.
| |
t11_final_006.png
|
Spatial Comprehension
|
Space Association
|
You on the same level as the river and you feel hungry, how many floors do you have to go within the building before you can find a place to sit down and eat?
|
[
"2",
"3",
"1",
"4"
] |
2
|
A
|
Question: You on the same level as the river and you feel hungry, how many floors do you have to go within the building before you can find a place to sit down and eat?
Options:
A. 2
B. 3
C. 1
D. 4
Please select one correct answer from the given options based on the image.
| |
t11_final_007.png
|
Spatial Comprehension
|
Space Association
|
What is the material labelled as ‘A’?
|
[
"Wood decking",
"Timber panel with epoxy",
"Vapour barrier",
"Mineral wool insulation"
] |
Mineral wool insulation
|
D
|
Question: What is the material labelled as ‘A’?
Options:
A. Wood decking
B. Timber panel with epoxy
C. Vapour barrier
D. Mineral wool insulation
Please select one correct answer from the given options based on the image.
| |
t11_final_007.png
|
Spatial Comprehension
|
Space Association
|
What is true about the window condition of the bedroom?
|
[
"The windows are all very far away from the bedroom",
"The bedroom has no windows",
"The bedroom has two windows",
"The bedroom has two windows and a skylight"
] |
The bedroom has two windows
|
C
|
Question: What is true about the window condition of the bedroom?
Options:
A. The windows are all very far away from the bedroom
B. The bedroom has no windows
C. The bedroom has two windows
D. The bedroom has two windows and a skylight
Please select one correct answer from the given options based on the image.
| |
t11_final_008.png
|
Spatial Comprehension
|
Space Association
|
What is the spatial feature of space A?
|
[
"Open to sky",
"Double volume space (with roof above)",
"Single storey space (with floor slab above)",
"Underground"
] |
Single storey space (with floor slab above)
|
C
|
Question: What is the spatial feature of space A?
Options:
A. Open to sky
B. Double volume space (with roof above)
C. Single storey space (with floor slab above)
D. Underground
Please select one correct answer from the given options based on the image.
| |
t11_final_008.png
|
Spatial Comprehension
|
Space Association
|
At which point on the 1st storey (W, X, Y, Z) does it allow visitors to the best view of the 2nd storey?
|
[
"Z",
"X",
"W",
"Y"
] |
W
|
C
|
Question: At which point on the 1st storey (W, X, Y, Z) does it allow visitors to the best view of the 2nd storey?
Options:
A. Z
B. X
C. W
D. Y
Please select one correct answer from the given options based on the image.
| |
t11_final_009.png
|
Spatial Comprehension
|
Space Association
|
Which section line does the section drawing correspond to?
|
[
"S1",
"S4",
"S3",
"S2"
] |
S2
|
D
|
Question: Which section line does the section drawing correspond to?
Options:
A. S1
B. S4
C. S3
D. S2
Please select one correct answer from the given options based on the image.
| |
t11_final_009.png
|
Spatial Comprehension
|
Space Association
|
Which spaces must you enter in order to access the basement space?
|
[
"Kitchen",
"Living Room",
"Dining area",
"Car porch"
] |
Dining area
|
C
|
Question: Which spaces must you enter in order to access the basement space?
Options:
A. Kitchen
B. Living Room
C. Dining area
D. Car porch
Please select one correct answer from the given options based on the image.
| |
t11_final_010.png
|
Spatial Comprehension
|
Space Association
|
Which of the following statement about the difference between the existing and proposed plan is incorrect?
|
[
"Dining space is enlarged in the proposed plan",
"Kitchen adopts an open kitchen concept in the proposed plan",
"There is one less enclosed room in the proposed plan",
"A new bedroom is created in the proposed plan"
] |
A new bedroom is created in the proposed plan
|
D
|
Question: Which of the following statement about the difference between the existing and proposed plan is incorrect?
Options:
A. Dining space is enlarged in the proposed plan
B. Kitchen adopts an open kitchen concept in the proposed plan
C. There is one less enclosed room in the proposed plan
D. A new bedroom is created in the proposed plan
Please select one correct answer from the given options based on the image.
| |
t11_final_010.png
|
Spatial Comprehension
|
Space Association
|
What is the key difference made by the renovation of the apartment?
|
[
"Creating new access into the apartment",
"Allowing greenery and nature to blend in seamlessly with the interior space",
"Adoption of open-plan layout",
"Use of non-fixed/ movable furnitures"
] |
Adoption of open-plan layout
|
C
|
Question: What is the key difference made by the renovation of the apartment?
Options:
A. Creating new access into the apartment
B. Allowing greenery and nature to blend in seamlessly with the interior space
C. Adoption of open-plan layout
D. Use of non-fixed/ movable furnitures
Please select one correct answer from the given options based on the image.
| |
t11_final_011.png
|
Spatial Comprehension
|
Space Association
|
A visitor would like to visit the pavilion at the rooftop. Which of the following sequence of circulation is not possible?
|
[
"Take the ramp all the way up",
"Use the stairs",
"Take the lift up",
"Take the ramp, then use the staircase"
] |
Take the ramp all the way up
|
A
|
Question: A visitor would like to visit the pavilion at the rooftop. Which of the following sequence of circulation is not possible?
Options:
A. Take the ramp all the way up
B. Use the stairs
C. Take the lift up
D. Take the ramp, then use the staircase
Please select one correct answer from the given options based on the image.
| |
t11_final_012.png
|
Spatial Comprehension
|
Space Association
|
According to the two different views of the same building, which of the statement describes space ‘A’?
|
[
"Lightwell with skylight above",
"Atrium space",
"Void space for mechanical ducts",
"Storeroom"
] |
Lightwell with skylight above
|
A
|
Question: According to the two different views of the same building, which of the statement describes space ‘A’?
Options:
A. Lightwell with skylight above
B. Atrium space
C. Void space for mechanical ducts
D. Storeroom
Please select one correct answer from the given options based on the image.
| |
t11_final_013.png
|
Spatial Comprehension
|
Space Association
|
Which of the following parti diagrams is the floorplan derived from?
|
[
"I",
"IV",
"II",
"III"
] |
II
|
C
|
Question: Which of the following parti diagrams is the floorplan derived from?
Options:
A. I
B. IV
C. II
D. III
Please select one correct answer from the given options based on the image.
| |
t11_final_013.png
|
Spatial Comprehension
|
Space Association
|
Which of the following best explains how the final floor plan is derived from the parti diagrams?
|
[
"It aligns with one of the diagrams, maintaining both geometric form and functional zones",
"It merges overlapping geometries from one diagram but rotates their internal zoning hierarchy",
"It follows a centralised parti with equal spatial distribution radiating from a core",
"The final plan is a hybrid composition created by layering multiple diagrammatic schemes"
] |
It aligns with one of the diagrams, maintaining both geometric form and functional zones
|
A
|
Question: Which of the following best explains how the final floor plan is derived from the parti diagrams?
Options:
A. It aligns with one of the diagrams, maintaining both geometric form and functional zones
B. It merges overlapping geometries from one diagram but rotates their internal zoning hierarchy
C. It follows a centralised parti with equal spatial distribution radiating from a core
D. The final plan is a hybrid composition created by layering multiple diagrammatic schemes
Please select one correct answer from the given options based on the image.
| |
t11_final_015.png
|
Spatial Comprehension
|
Space Association
|
Which space in the cabin has the lowest ceiling height?
|
[
"Living room",
"Toilet",
"Kitchen",
"Bedroom"
] |
Living room
|
A
|
Question: Which space in the cabin has the lowest ceiling height?
Options:
A. Living room
B. Toilet
C. Kitchen
D. Bedroom
Please select one correct answer from the given options based on the image.
| |
t11_final_015.png
|
Spatial Comprehension
|
Space Association
|
Which space in the cabin has the highest ceiling height?
|
[
"Bedroom",
"Kitchen",
"Living room",
"Toilet"
] |
Kitchen
|
B
|
Question: Which space in the cabin has the highest ceiling height?
Options:
A. Bedroom
B. Kitchen
C. Living room
D. Toilet
Please select one correct answer from the given options based on the image.
| |
t11_final_016.png
|
Environment Interaction
|
User-Environment Interaction
|
According to the diagram, what strategy most effectively creates programmatic separation without changing the building’s footprint?
|
[
"Stepping back the podium to minimize program overlap with the tower",
"Use of vertical garden buffers between stacked zones",
"Rotation of upper massing to shift user flows and viewing angles",
"Tilting volumes to open skylight exposure between stacked functions"
] |
Use of vertical garden buffers between stacked zones
|
B
|
Question: According to the diagram, what strategy most effectively creates programmatic separation without changing the building’s footprint?
Options:
A. Stepping back the podium to minimize program overlap with the tower
B. Use of vertical garden buffers between stacked zones
C. Rotation of upper massing to shift user flows and viewing angles
D. Tilting volumes to open skylight exposure between stacked functions
Please select one correct answer from the given options based on the image.
| |
t11_final_016.png
|
Environment Interaction
|
User-Environment Interaction
|
How does the design enhance both city and natural views?
|
[
"By placing programmatic functions at random to create serendipitous views_x000B_",
"By orienting key sightlines from the tower towards strategic scenic zones_x000B_",
"By cutting off horizontal views to emphasize only vertical movement",
"By creating opaque façade strips to deflect visual attention inward_x000B_"
] |
By orienting key sightlines from the tower towards strategic scenic zones_x000B_
|
B
|
Question: How does the design enhance both city and natural views?
Options:
A. By placing programmatic functions at random to create serendipitous views_x000B_
B. By orienting key sightlines from the tower towards strategic scenic zones_x000B_
C. By cutting off horizontal views to emphasize only vertical movement
D. By creating opaque façade strips to deflect visual attention inward_x000B_
Please select one correct answer from the given options based on the image.
| |
t11_final_017.png
|
Environment Interaction
|
User-Environment Interaction
|
According to the diagram, what strategy allows the site to maintain continuity between built volumes and the surrounding green space?
|
[
"Irregular building placement to preserve open landscape flow",
"Linear arrangement of buildings aligned to street grid",
"Equal spacing of built forms to distribute density",
"Concentrated clustering of built masses near site center"
] |
Irregular building placement to preserve open landscape flow
|
A
|
Question: According to the diagram, what strategy allows the site to maintain continuity between built volumes and the surrounding green space?
Options:
A. Irregular building placement to preserve open landscape flow
B. Linear arrangement of buildings aligned to street grid
C. Equal spacing of built forms to distribute density
D. Concentrated clustering of built masses near site center
Please select one correct answer from the given options based on the image.
| |
t11_final_017.png
|
Environment Interaction
|
User-Environment Interaction
|
How does the layout of the built volumes respond to the site’s pedestrian circulation?
|
[
"Through perimeter paths that meander buildings and vegetation",
"Through placement of all paths at the site edge to avoid internal circulation",
"By strategically placing entries along multiple paths that cuts across the site_x000B_B.",
"By using winding pathways to connect all units in an inorganic grid"
] |
Through perimeter paths that meander buildings and vegetation
|
A
|
Question: How does the layout of the built volumes respond to the site’s pedestrian circulation?
Options:
A. Through perimeter paths that meander buildings and vegetation
B. Through placement of all paths at the site edge to avoid internal circulation
C. By strategically placing entries along multiple paths that cuts across the site_x000B_B.
D. By using winding pathways to connect all units in an inorganic grid
Please select one correct answer from the given options based on the image.
| |
t11_final_018.png
|
Environment Interaction
|
User-Environment Interaction
|
Which setup in in the diagram is least likely to improve interaction with the surrounding built environment?
|
[
"Adding green buffer zones along the external paths",
"Segmenting the mass into offset blocks_x000B_",
"Connecting to adjacent buildings via elevated walkway",
"Zigzagging the corridor to align with open spaces"
] |
Segmenting the mass into offset blocks_x000B_
|
B
|
Question: Which setup in in the diagram is least likely to improve interaction with the surrounding built environment?
Options:
A. Adding green buffer zones along the external paths
B. Segmenting the mass into offset blocks_x000B_
C. Connecting to adjacent buildings via elevated walkway
D. Zigzagging the corridor to align with open spaces
Please select one correct answer from the given options based on the image.
| |
t11_final_020.png
|
Environment Interaction
|
User-Environment Interaction
|
In the layered diagram, which of the following spatial relationships is incorrect?
|
[
"Programmed platforms are lifted to emulate surrounding landscape movements",
"Programmed roof as slabs interrupting continuous vegetation fields",
"Built volumes emerge from the terrain and becomes the new vegetation field",
"Roof of built volumes are reimagined into a continuous accessible roof that stretches"
] |
Built volumes emerge from the terrain and becomes the new vegetation field
|
C
|
Question: In the layered diagram, which of the following spatial relationships is incorrect?
Options:
A. Programmed platforms are lifted to emulate surrounding landscape movements
B. Programmed roof as slabs interrupting continuous vegetation fields
C. Built volumes emerge from the terrain and becomes the new vegetation field
D. Roof of built volumes are reimagined into a continuous accessible roof that stretches
Please select one correct answer from the given options based on the image.
| |
t11_final_020.png
|
Environment Interaction
|
User-Environment Interaction
|
What formal logic drives the emergence of architecture within the landscape sequence?
|
[
"Architecture rises from ground as interruptive nodes that redirect rather than follow natural flows_x000B_",
"Built volumes are recessed into the terrain to dissolve visual boundary between program and landscape_x000B_",
"A gradual dialogue forms between platform and canopy, allowing architecture to mirror but not mimic the terrain",
"The terrain is sliced horizontally to insert continuous slabs that resist topographic movement_x000B_"
] |
A gradual dialogue forms between platform and canopy, allowing architecture to mirror but not mimic the terrain
|
C
|
Question: What formal logic drives the emergence of architecture within the landscape sequence?
Options:
A. Architecture rises from ground as interruptive nodes that redirect rather than follow natural flows_x000B_
B. Built volumes are recessed into the terrain to dissolve visual boundary between program and landscape_x000B_
C. A gradual dialogue forms between platform and canopy, allowing architecture to mirror but not mimic the terrain
D. The terrain is sliced horizontally to insert continuous slabs that resist topographic movement_x000B_
Please select one correct answer from the given options based on the image.
| |
t11_final_024.png
|
Environment Interaction
|
User-Environment Interaction
|
Based on the transformation sequence, what is the most likely spatial logic driving the central configuration of blocks?
|
[
"To form a directional plaza that channels movement northward",
"To maintain perimeter exposure while internalizing key circulation routes",
"To minimize adjacency between program zones with differing access needs",
"To enclose a shared open space accessible from all sides"
] |
To enclose a shared open space accessible from all sides
|
D
|
Question: Based on the transformation sequence, what is the most likely spatial logic driving the central configuration of blocks?
Options:
A. To form a directional plaza that channels movement northward
B. To maintain perimeter exposure while internalizing key circulation routes
C. To minimize adjacency between program zones with differing access needs
D. To enclose a shared open space accessible from all sides
Please select one correct answer from the given options based on the image.
| |
t11_final_024.png
|
Environment Interaction
|
User-Environment Interaction
|
Which spatial relationship is preserved throughout the entire sequence despite changes in volume density and massing?
|
[
"Direct axial alignment with the primary surrounding street grid_x000B_",
"Porous edge conditions enabling multi-directional pedestrian flow into the center",
"Full visual openness at each corner of the central cluster_x000B_",
"Equal distribution of color-coded program blocks per quadrant_x000B_"
] |
Porous edge conditions enabling multi-directional pedestrian flow into the center
|
B
|
Question: Which spatial relationship is preserved throughout the entire sequence despite changes in volume density and massing?
Options:
A. Direct axial alignment with the primary surrounding street grid_x000B_
B. Porous edge conditions enabling multi-directional pedestrian flow into the center
C. Full visual openness at each corner of the central cluster_x000B_
D. Equal distribution of color-coded program blocks per quadrant_x000B_
Please select one correct answer from the given options based on the image.
| |
t11_final_026.png
|
Environment Interaction
|
User-Environment Interaction
|
What is the primary spatial logic driving the transformation across the three frames?
|
[
"Rotating roof planes to optimize slope drainage and tree alignment",
"Transforming a visual barrier into a continuous public route",
"Shifting back-of-house program forward to activate the street edge",
"Stacking vertical circulation to minimize horizontal sprawl"
] |
Transforming a visual barrier into a continuous public route
|
B
|
Question: What is the primary spatial logic driving the transformation across the three frames?
Options:
A. Rotating roof planes to optimize slope drainage and tree alignment
B. Transforming a visual barrier into a continuous public route
C. Shifting back-of-house program forward to activate the street edge
D. Stacking vertical circulation to minimize horizontal sprawl
Please select one correct answer from the given options based on the image.
| |
t11_final_026.png
|
Environment Interaction
|
User-Environment Interaction
|
How does the intervention redefine the relationship between interior experience and exterior context?
|
[
"It externalizes circulation to make movement itself the design gesture",
"It creates visual porosity while maintaining programmatic enclosure",
"It mirrors landscape elevation to soften transition into the ground plane",
"It eliminates separation by dissolving the building envelope entirely"
] |
It creates visual porosity while maintaining programmatic enclosure
|
B
|
Question: How does the intervention redefine the relationship between interior experience and exterior context?
Options:
A. It externalizes circulation to make movement itself the design gesture
B. It creates visual porosity while maintaining programmatic enclosure
C. It mirrors landscape elevation to soften transition into the ground plane
D. It eliminates separation by dissolving the building envelope entirely
Please select one correct answer from the given options based on the image.
| |
t11_final_027.png
|
Environment Interaction
|
User-Environment Interaction
|
Which design strategy most likely defines the spatial transformation across the sequence?
|
[
"Channeling landscape through the central axis to stitch together two fragmented zones",
"Extending the existing urban grid into the void to reestablish perimeter density",
"Creating a topographic void that detaches the new intervention from its historic context",
"Breaking down the building mass to allow oblique pedestrian movement through the site"
] |
Channeling landscape through the central axis to stitch together two fragmented zones
|
A
|
Question: Which design strategy most likely defines the spatial transformation across the sequence?
Options:
A. Channeling landscape through the central axis to stitch together two fragmented zones
B. Extending the existing urban grid into the void to reestablish perimeter density
C. Creating a topographic void that detaches the new intervention from its historic context
D. Breaking down the building mass to allow oblique pedestrian movement through the site
Please select one correct answer from the given options based on the image.
| |
t11_final_027.png
|
Environment Interaction
|
User-Environment Interaction
|
What formal gesture in the sequence communicates visual and spatial continuity through the site?
|
[
"Lifting the landscape into a ramp that invites cross-axial passage_x000B_",
"Compressing the main axis while extending the sides to create a courtyard condition_x000B_",
"Burying vehicular circulation to preserve surface-level program cohesion",
"Replacing interior mass with glass to enhance transparency from end to end_x000B_"
] |
Lifting the landscape into a ramp that invites cross-axial passage_x000B_
|
A
|
Question: What formal gesture in the sequence communicates visual and spatial continuity through the site?
Options:
A. Lifting the landscape into a ramp that invites cross-axial passage_x000B_
B. Compressing the main axis while extending the sides to create a courtyard condition_x000B_
C. Burying vehicular circulation to preserve surface-level program cohesion
D. Replacing interior mass with glass to enhance transparency from end to end_x000B_
Please select one correct answer from the given options based on the image.
| |
t01_final_016.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
From observing the image, what structural element most directly helps resist the outward spreading of the stool’s legs when weight is applied to the seat?
|
[
"The carved hoof-like feet at the base of each leg.",
"The curve of the seat frame’s upper edges.",
"The remnants of woven fibers attached to the frame.",
"The horizontal wooden stretchers connecting the legs."
] |
The horizontal wooden stretchers connecting the legs.
|
D
|
Question: From observing the image, what structural element most directly helps resist the outward spreading of the stool’s legs when weight is applied to the seat?
Options:
A. The carved hoof-like feet at the base of each leg.
B. The curve of the seat frame’s upper edges.
C. The remnants of woven fibers attached to the frame.
D. The horizontal wooden stretchers connecting the legs.
Please select one correct answer from the given options based on the image.
| |
t01_final_016.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If the stool were placed on uneven ground and weight applied to one corner, which design feature would most help maintain the stool’s balance?
|
[
"The thickness of the leg wood.",
"The hoof-like shape of the legs gripping the surface.",
"The flexibility of the woven seat distributing the load.",
"The height of the stool."
] |
The flexibility of the woven seat distributing the load.
|
C
|
Question: If the stool were placed on uneven ground and weight applied to one corner, which design feature would most help maintain the stool’s balance?
Options:
A. The thickness of the leg wood.
B. The hoof-like shape of the legs gripping the surface.
C. The flexibility of the woven seat distributing the load.
D. The height of the stool.
Please select one correct answer from the given options based on the image.
| |
t01_final_017.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
From observing the chair’s frame design, what feature contributes most to its ability to support the user’s weight without traditional vertical legs?
|
[
"The cushioned upholstery.",
"The straight vertical back legs.",
"The flat base plates under each foot.",
"The continuous, curved metal bars forming an X-shape."
] |
The continuous, curved metal bars forming an X-shape.
|
D
|
Question: From observing the chair’s frame design, what feature contributes most to its ability to support the user’s weight without traditional vertical legs?
Options:
A. The cushioned upholstery.
B. The straight vertical back legs.
C. The flat base plates under each foot.
D. The continuous, curved metal bars forming an X-shape.
Please select one correct answer from the given options based on the image.
| |
t01_final_017.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If the metal X-shaped legs of this chair were made from wood instead of metal, what would be the most likely structural consequence?
|
[
"The chair would be lighter and more durable.",
"The chair would retain its stability and flexibility.",
"The chair would risk breaking at the curved joints under load.",
"The chair would perform identically to the original."
] |
The chair would risk breaking at the curved joints under load.
|
C
|
Question: If the metal X-shaped legs of this chair were made from wood instead of metal, what would be the most likely structural consequence?
Options:
A. The chair would be lighter and more durable.
B. The chair would retain its stability and flexibility.
C. The chair would risk breaking at the curved joints under load.
D. The chair would perform identically to the original.
Please select one correct answer from the given options based on the image.
| |
t01_final_018.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
From observing the image, which element of this chair contributes directly to its lateral (sideways) stability?
|
[
"The armrests connecting the front and back legs.",
"The decorative apron beneath the seat.",
"The intricate carvings on the frame.",
"The upholstered backrest panel."
] |
The decorative apron beneath the seat.
|
B
|
Question: From observing the image, which element of this chair contributes directly to its lateral (sideways) stability?
Options:
A. The armrests connecting the front and back legs.
B. The decorative apron beneath the seat.
C. The intricate carvings on the frame.
D. The upholstered backrest panel.
Please select one correct answer from the given options based on the image.
| |
t01_final_018.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If this chair’s front legs were slightly thicker at the bottom than at the top while keeping the same decorative design, what would likely happen to its structural stability when supporting a heavy load?
|
[
"It would make the chair lighter and more flexible.",
"It would increase overall structural stability.",
"It would make no noticeable difference.",
"It would become more prone to tipping sideways."
] |
It would increase overall structural stability.
|
B
|
Question: If this chair’s front legs were slightly thicker at the bottom than at the top while keeping the same decorative design, what would likely happen to its structural stability when supporting a heavy load?
Options:
A. It would make the chair lighter and more flexible.
B. It would increase overall structural stability.
C. It would make no noticeable difference.
D. It would become more prone to tipping sideways.
Please select one correct answer from the given options based on the image.
| |
t01_final_019.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
From the visual design and leg orientation in the image, which of the following best describes the type of symmetry the stool’s supporting structure most closely exhibits?
|
[
"No symmetry",
"Radial symmetry",
"Bilateral symmetry",
"Rotational symmetry around a vertical axis"
] |
Rotational symmetry around a vertical axis
|
D
|
Question: From the visual design and leg orientation in the image, which of the following best describes the type of symmetry the stool’s supporting structure most closely exhibits?
Options:
A. No symmetry
B. Radial symmetry
C. Bilateral symmetry
D. Rotational symmetry around a vertical axis
Please select one correct answer from the given options based on the image.
| |
t01_final_019.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Given the design of the stool shown, which modification would most effectively reduce the risk of tipping when a user leans sideways while seated?
|
[
"Adding a horizontal stabilizer bar between each leg",
"Widening the base angle between the legs",
"Increasing the height of the central hub above the legs",
"Replacing the fabric with stretchable elastic material"
] |
Widening the base angle between the legs
|
B
|
Question: Given the design of the stool shown, which modification would most effectively reduce the risk of tipping when a user leans sideways while seated?
Options:
A. Adding a horizontal stabilizer bar between each leg
B. Widening the base angle between the legs
C. Increasing the height of the central hub above the legs
D. Replacing the fabric with stretchable elastic material
Please select one correct answer from the given options based on the image.
| |
t01_final_020.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Based on the image, which part of the furniture contributes most to its stability on a flat surface?
|
[
"The padded upholstery",
"The curved seat shape",
"The tall backrest of the chair",
"The wide spacing of the legs at the base"
] |
The wide spacing of the legs at the base
|
D
|
Question: Based on the image, which part of the furniture contributes most to its stability on a flat surface?
Options:
A. The padded upholstery
B. The curved seat shape
C. The tall backrest of the chair
D. The wide spacing of the legs at the base
Please select one correct answer from the given options based on the image.
| |
t01_final_020.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Imagine a user frequently sits on the edge of the ottoman while putting on shoes. From a stability standpoint, what risk does the current design introduce?
|
[
"The angled legs may not support asymmetrical pressure",
"The cushion may compress unevenly and affect comfort",
"The user will be too low to the ground",
"The ottoman might rotate unexpectedly"
] |
The angled legs may not support asymmetrical pressure
|
A
|
Question: Imagine a user frequently sits on the edge of the ottoman while putting on shoes. From a stability standpoint, what risk does the current design introduce?
Options:
A. The angled legs may not support asymmetrical pressure
B. The cushion may compress unevenly and affect comfort
C. The user will be too low to the ground
D. The ottoman might rotate unexpectedly
Please select one correct answer from the given options based on the image.
| |
t01_final_021.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which of the following best describes the spacing of the table legs in relation to the triangular tabletop?
|
[
"Two legs are closely spaced, the third is offset",
"One leg is centered at each corner of the triangle",
"All legs are symmetrically placed around the center",
"The legs are evenly spaced but not aligned with the corners"
] |
All legs are symmetrically placed around the center
|
C
|
Question: Which of the following best describes the spacing of the table legs in relation to the triangular tabletop?
Options:
A. Two legs are closely spaced, the third is offset
B. One leg is centered at each corner of the triangle
C. All legs are symmetrically placed around the center
D. The legs are evenly spaced but not aligned with the corners
Please select one correct answer from the given options based on the image.
| |
t01_final_021.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which design change is most likely to improve this table’s resistance to tipping when someone leans heavily on one edge?
|
[
"Increasing the length of the legs",
"Adding a fourth leg evenly spaced from the others",
"Making the tabletop circular instead of triangular",
"Thickening the tabletop"
] |
Adding a fourth leg evenly spaced from the others
|
B
|
Question: Which design change is most likely to improve this table’s resistance to tipping when someone leans heavily on one edge?
Options:
A. Increasing the length of the legs
B. Adding a fourth leg evenly spaced from the others
C. Making the tabletop circular instead of triangular
D. Thickening the tabletop
Please select one correct answer from the given options based on the image.
| |
t01_final_022.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which part of the chair’s base appears to make contact with the floor?
|
[
"Both the front and rear curves",
"None of the base touches the floor",
"Only the frontmost edge",
"Only the rearmost curve"
] |
Both the front and rear curves
|
A
|
Question: Which part of the chair’s base appears to make contact with the floor?
Options:
A. Both the front and rear curves
B. None of the base touches the floor
C. Only the frontmost edge
D. Only the rearmost curve
Please select one correct answer from the given options based on the image.
| |
t01_final_022.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
What aspect of this chair’s form contributes most to its stability despite the lack of traditional legs?
|
[
"The solid backrest",
"The weight being distributed along the looped base",
"Its low seat height",
"The weight being avoided along the looped base"
] |
The weight being distributed along the looped base
|
B
|
Question: What aspect of this chair’s form contributes most to its stability despite the lack of traditional legs?
Options:
A. The solid backrest
B. The weight being distributed along the looped base
C. Its low seat height
D. The weight being avoided along the looped base
Please select one correct answer from the given options based on the image.
| |
t01_final_023.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Based on the drawing, which of the following best describes the type of structure this chair uses to support weight?
|
[
"It uses separate legs at each corner for even load distribution.",
"It contains hidden support beams underneath the seat platform.",
"It includes cross-bracing between flat surfaces for added rigidity.",
"It relies on a continuous zigzag form to transfer load to the ground."
] |
It relies on a continuous zigzag form to transfer load to the ground.
|
D
|
Question: Based on the drawing, which of the following best describes the type of structure this chair uses to support weight?
Options:
A. It uses separate legs at each corner for even load distribution.
B. It contains hidden support beams underneath the seat platform.
C. It includes cross-bracing between flat surfaces for added rigidity.
D. It relies on a continuous zigzag form to transfer load to the ground.
Please select one correct answer from the given options based on the image.
| |
t01_final_023.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Assuming no hidden supports are added, which kind of failure would this chair be most vulnerable to over time?
|
[
"Cracking from repeated impact forces",
"Toppling sideways due to an unbalanced footprint",
"Sliding across the floor under shifting weight",
"Gradual sagging or buckling at the angled joint"
] |
Gradual sagging or buckling at the angled joint
|
D
|
Question: Assuming no hidden supports are added, which kind of failure would this chair be most vulnerable to over time?
Options:
A. Cracking from repeated impact forces
B. Toppling sideways due to an unbalanced footprint
C. Sliding across the floor under shifting weight
D. Gradual sagging or buckling at the angled joint
Please select one correct answer from the given options based on the image.
| |
t01_final_024.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which feature in this shelving unit contributes most to its ability to resist tipping forward?
|
[
"The alternating colors of the shelving compartments",
"The vertical compartments aligned near the center",
"The overhanging top shelf",
"The support legs fixed under the front edge of the bottom shelf"
] |
The support legs fixed under the front edge of the bottom shelf
|
D
|
Question: Which feature in this shelving unit contributes most to its ability to resist tipping forward?
Options:
A. The alternating colors of the shelving compartments
B. The vertical compartments aligned near the center
C. The overhanging top shelf
D. The support legs fixed under the front edge of the bottom shelf
Please select one correct answer from the given options based on the image.
| |
t01_final_024.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If you wanted to improve this unit’s stability without changing its visual design, which of the following would be the most effective option?
|
[
"Paint the shelves a darker color to “anchor” the form visually",
"Fill the lower compartments with heavier objects",
"Attach rubber pads to the underside of the feet",
"Reduce the width of the shelves"
] |
Fill the lower compartments with heavier objects
|
B
|
Question: If you wanted to improve this unit’s stability without changing its visual design, which of the following would be the most effective option?
Options:
A. Paint the shelves a darker color to “anchor” the form visually
B. Fill the lower compartments with heavier objects
C. Attach rubber pads to the underside of the feet
D. Reduce the width of the shelves
Please select one correct answer from the given options based on the image.
| |
t01_final_025.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which of the following best describes the structural strategy used in the base of the table?
|
[
"Hollow pedestal with concealed reinforcements",
"Four-legged standard cantilever design",
"Radial symmetry using planar supports",
"Centralized bracing using crisscrossed slender rods"
] |
Centralized bracing using crisscrossed slender rods
|
D
|
Question: Which of the following best describes the structural strategy used in the base of the table?
Options:
A. Hollow pedestal with concealed reinforcements
B. Four-legged standard cantilever design
C. Radial symmetry using planar supports
D. Centralized bracing using crisscrossed slender rods
Please select one correct answer from the given options based on the image.
| |
t01_final_025.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
What is a plausible reason this table might feel less stable in some home settings despite its wide base?
|
[
"The angular supports are likely to break under humidity changes",
"The distributed supports might flex slightly under uneven loads",
"It is top-heavy due to a thick tabletop and narrow leg spacing",
"It lacks enough weight to prevent lifting during cleaning"
] |
The distributed supports might flex slightly under uneven loads
|
B
|
Question: What is a plausible reason this table might feel less stable in some home settings despite its wide base?
Options:
A. The angular supports are likely to break under humidity changes
B. The distributed supports might flex slightly under uneven loads
C. It is top-heavy due to a thick tabletop and narrow leg spacing
D. It lacks enough weight to prevent lifting during cleaning
Please select one correct answer from the given options based on the image.
| |
t01_final_026.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which design feature most likely contributes to the table’s ability to remain balanced despite the unconventional base structure?
|
[
"The broad surface area of the glass tabletop",
"The low height of the table relative to its length",
"The curving geometry of the sculptural wooden base",
"The use of transparent materials to reduce visual weight"
] |
The curving geometry of the sculptural wooden base
|
C
|
Question: Which design feature most likely contributes to the table’s ability to remain balanced despite the unconventional base structure?
Options:
A. The broad surface area of the glass tabletop
B. The low height of the table relative to its length
C. The curving geometry of the sculptural wooden base
D. The use of transparent materials to reduce visual weight
Please select one correct answer from the given options based on the image.
| |
t01_final_026.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If the tabletop were replaced with a perfectly symmetrical round glass top of the same area, which structural consequence is most likely?
|
[
"The base would need to be widened to prevent tipping",
"Stability would increase due to better weight distribution",
"The center of mass would rise, improving balance",
"The table would become heavier and reduce its risk of sliding"
] |
The base would need to be widened to prevent tipping
|
A
|
Question: If the tabletop were replaced with a perfectly symmetrical round glass top of the same area, which structural consequence is most likely?
Options:
A. The base would need to be widened to prevent tipping
B. Stability would increase due to better weight distribution
C. The center of mass would rise, improving balance
D. The table would become heavier and reduce its risk of sliding
Please select one correct answer from the given options based on the image.
| |
t01_final_027.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which design element helps prevent this chair’s legs from splaying outward under load?
|
[
"The curved backrest",
"The rounded front corners of the seat",
"The woven seat material",
"The horizontal stretchers between the legs"
] |
The horizontal stretchers between the legs
|
D
|
Question: Which design element helps prevent this chair’s legs from splaying outward under load?
Options:
A. The curved backrest
B. The rounded front corners of the seat
C. The woven seat material
D. The horizontal stretchers between the legs
Please select one correct answer from the given options based on the image.
| |
t01_final_027.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
If the front horizontal stretcher (connecting the two front legs) were removed, which of the following structural weaknesses would most likely occur first?
|
[
"The back legs would pull inward",
"The legs would easily twist",
"The seat would sag in the middle",
"The backrest would detach from the seat"
] |
The legs would easily twist
|
B
|
Question: If the front horizontal stretcher (connecting the two front legs) were removed, which of the following structural weaknesses would most likely occur first?
Options:
A. The back legs would pull inward
B. The legs would easily twist
C. The seat would sag in the middle
D. The backrest would detach from the seat
Please select one correct answer from the given options based on the image.
| |
t01_final_028.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which design feature most contributes to this chaise lounge’s ability to remain stable when someone reclines in it?
|
[
"The angle of the backrest",
"The elevated armrests",
"The smooth transition from seat to footrest",
"The continuous loop of the wooden legs"
] |
The continuous loop of the wooden legs
|
D
|
Question: Which design feature most contributes to this chaise lounge’s ability to remain stable when someone reclines in it?
Options:
A. The angle of the backrest
B. The elevated armrests
C. The smooth transition from seat to footrest
D. The continuous loop of the wooden legs
Please select one correct answer from the given options based on the image.
| |
t01_final_028.png
|
Cmmonsense Knowledge
|
Materials and Structures
|
Which structural feature most contributes to this chair resisting torsional (twisting) forces over time?
|
[
"The thinness of the bent plywood allowing minimal visual mass",
"The reclined seat angle distributing load onto the user’s legs",
"The upward curl of the armrests, which increases comfort",
"The bracing bar connecting two sides of the structure"
] |
The bracing bar connecting two sides of the structure
|
D
|
Question: Which structural feature most contributes to this chair resisting torsional (twisting) forces over time?
Options:
A. The thinness of the bent plywood allowing minimal visual mass
B. The reclined seat angle distributing load onto the user’s legs
C. The upward curl of the armrests, which increases comfort
D. The bracing bar connecting two sides of the structure
Please select one correct answer from the given options based on the image.
| |
t01_final_01.png
|
Spatial Comprehension
|
Form Transformation
|
Given this 3D form on the left, what should it look like if you unroll the surface.
|
[
"Option2",
"Option3",
"Option1",
"Option4"
] |
Option1
|
C
|
Question: Given this 3D form on the left, what should it look like if you unroll the surface.
Options:
A. Option2
B. Option3
C. Option1
D. Option4
Please select one correct answer from the given options based on the image.
| |
t01_final_01.png
|
Spatial Comprehension
|
Form Transformation
|
What are the primary geometric shapes involved in the form on the left, and how do they interact?
|
[
"The form is made up of six hexagons that are all connected side by side.",
"It consists of one square base with four triangular sides",
"The form is made up of pentagons, triangles and squares, connected side by side",
"The shape is constructed using only triangles, which form both the base and the sides"
] |
The form is made up of pentagons, triangles and squares, connected side by side
|
C
|
Question: What are the primary geometric shapes involved in the form on the left, and how do they interact?
Options:
A. The form is made up of six hexagons that are all connected side by side.
B. It consists of one square base with four triangular sides
C. The form is made up of pentagons, triangles and squares, connected side by side
D. The shape is constructed using only triangles, which form both the base and the sides
Please select one correct answer from the given options based on the image.
| |
t01_final_02.png
|
Spatial Comprehension
|
Form Transformation
|
Which 2D on the right net accurately represents the unfolded surface of this 3D shape on the left?
|
[
"Option2",
"Option3",
"Option4",
"Option1"
] |
Option2
|
A
|
Question: Which 2D on the right net accurately represents the unfolded surface of this 3D shape on the left?
Options:
A. Option2
B. Option3
C. Option4
D. Option1
Please select one correct answer from the given options based on the image.
| |
t01_final_02.png
|
Spatial Comprehension
|
Form Transformation
|
What clues can help you identify the correct unfolded net of the 3D form?
|
[
"The type of polygon used",
"Number of triangular faces and their angles",
"The total surface area of the shape, measured flat",
"The size of each face"
] |
Number of triangular faces and their angles
|
B
|
Question: What clues can help you identify the correct unfolded net of the 3D form?
Options:
A. The type of polygon used
B. Number of triangular faces and their angles
C. The total surface area of the shape, measured flat
D. The size of each face
Please select one correct answer from the given options based on the image.
| |
t01_final_03.png
|
Spatial Comprehension
|
Form Transformation
|
For this rolled surface on the left, when disassembled into a flat pattern, what shape would this form produce?
|
[
"Option2",
"Option4",
"Option3",
"Option1"
] |
Option1
|
D
|
Question: For this rolled surface on the left, when disassembled into a flat pattern, what shape would this form produce?
Options:
A. Option2
B. Option4
C. Option3
D. Option1
Please select one correct answer from the given options based on the image.
| |
t01_final_03.png
|
Spatial Comprehension
|
Form Transformation
|
What is the defining feature that aids in relating the rolled surface on the left into a flat pattern?
|
[
"The orientation of the flat pattern.",
"The number of edges of the surface",
"The number of isocurves on the surfce.",
"The number of subfaces on the surface."
] |
The number of isocurves on the surfce.
|
C
|
Question: What is the defining feature that aids in relating the rolled surface on the left into a flat pattern?
Options:
A. The orientation of the flat pattern.
B. The number of edges of the surface
C. The number of isocurves on the surfce.
D. The number of subfaces on the surface.
Please select one correct answer from the given options based on the image.
| |
t01_final_04.png
|
Spatial Comprehension
|
Form Transformation
|
Given this doubly curved surface on the left, which option shows the most likely representation when it is unrolled?
|
[
"Option1",
"Option4",
"Option2",
"Option3"
] |
Option4
|
B
|
Question: Given this doubly curved surface on the left, which option shows the most likely representation when it is unrolled?
Options:
A. Option1
B. Option4
C. Option2
D. Option3
Please select one correct answer from the given options based on the image.
| |
t01_final_04.png
|
Spatial Comprehension
|
Form Transformation
|
What is the key feature in relating this curved form on the left to the flat pattern?
|
[
"Orientation of the curved form",
"Number of sharp edges in the flat pattern.",
"Isocurves on the flat pattern.",
"Number of curved ends in the flat pattern."
] |
Number of curved ends in the flat pattern.
|
D
|
Question: What is the key feature in relating this curved form on the left to the flat pattern?
Options:
A. Orientation of the curved form
B. Number of sharp edges in the flat pattern.
C. Isocurves on the flat pattern.
D. Number of curved ends in the flat pattern.
Please select one correct answer from the given options based on the image.
| |
t01_final_05.png
|
Spatial Comprehension
|
Form Transformation
|
When the object on the left is disassembled, which option reflects the correct parts and its quantity?
|
[
"Option2",
"Option4",
"Option3",
"Option1"
] |
Option1
|
D
|
Question: When the object on the left is disassembled, which option reflects the correct parts and its quantity?
Options:
A. Option2
B. Option4
C. Option3
D. Option1
Please select one correct answer from the given options based on the image.
| |
t01_final_05.png
|
Spatial Comprehension
|
Form Transformation
|
Considering the final assembled form on the left and the shape of the individual panels (as shown in the options), what is the most likely general sequence in which these panels were joined to create the 3D object?
|
[
"The panels were likely joined end-to-end in a linear sequence, which was then curved.",
"The panels were likely joined simultaneously to a central core or frame (not visible).",
"The panels were pre-folded into curved segments and then attached along straight edges.",
"The panels were likely joined sequentially, with each new panel attaching to the edges of the previously assembled ones, forming the spiral structure."
] |
The panels were likely joined sequentially, with each new panel attaching to the edges of the previously assembled ones, forming the spiral structure.
|
D
|
Question: Considering the final assembled form on the left and the shape of the individual panels (as shown in the options), what is the most likely general sequence in which these panels were joined to create the 3D object?
Options:
A. The panels were likely joined end-to-end in a linear sequence, which was then curved.
B. The panels were likely joined simultaneously to a central core or frame (not visible).
C. The panels were pre-folded into curved segments and then attached along straight edges.
D. The panels were likely joined sequentially, with each new panel attaching to the edges of the previously assembled ones, forming the spiral structure.
Please select one correct answer from the given options based on the image.
| |
t01_final_06.png
|
Spatial Comprehension
|
Form Transformation
|
When the form on the left is disassembled, which unit on the right can be obtained?
|
[
"Option1",
"Option2",
"Option3",
"Option4"
] |
Option4
|
D
|
Question: When the form on the left is disassembled, which unit on the right can be obtained?
Options:
A. Option1
B. Option2
C. Option3
D. Option4
Please select one correct answer from the given options based on the image.
| |
t01_final_06.png
|
Spatial Comprehension
|
Form Transformation
|
Considering the assembled form on the left and the potential individual units (as suggested by the options), what is the most likely spatial relationship between adjacent units within the assembled structure?
|
[
"Adjacent units primarily connect through flat, planar surfaces pressed tightly together",
"Adjacent units maintain a significant gap or void between them, contributing to the overall open structure.",
"Adjacent units are likely held together by an external connecting element, rather than direct geometric interlocking",
"Adjacent units interlock through complex geometries involving steps, angles, and potentially recessed areas."
] |
Adjacent units primarily connect through flat, planar surfaces pressed tightly together
|
A
|
Question: Considering the assembled form on the left and the potential individual units (as suggested by the options), what is the most likely spatial relationship between adjacent units within the assembled structure?
Options:
A. Adjacent units primarily connect through flat, planar surfaces pressed tightly together
B. Adjacent units maintain a significant gap or void between them, contributing to the overall open structure.
C. Adjacent units are likely held together by an external connecting element, rather than direct geometric interlocking
D. Adjacent units interlock through complex geometries involving steps, angles, and potentially recessed areas.
Please select one correct answer from the given options based on the image.
| |
t01_final_07.png
|
Spatial Comprehension
|
Form Transformation
|
Which element on the right can be obtained when the structure on the left is taken apart?
|
[
"Option4",
"Option2",
"Option1",
"Option3"
] |
Option1
|
C
|
Question: Which element on the right can be obtained when the structure on the left is taken apart?
Options:
A. Option4
B. Option2
C. Option1
D. Option3
Please select one correct answer from the given options based on the image.
| |
t01_final_07.png
|
Spatial Comprehension
|
Form Transformation
|
The assembled structure on the left is composed of interconnected elements. If this structure were disassembled, what is the most likely nature of the connections between these elements, based on their visual appearance?
|
[
"The elements are likely connected by flexible joints or hinges, allowing for movement at the connection points.",
"The elements are likely designed to slot or snap together at specific nodes, allowing for a modular assembly and disassembly.",
"The elements are likely held together by an external adhesive or binding material that is not explicitly visible.",
"The elements are likely rigidly fused or welded together, making disassembly without breaking them difficult"
] |
The elements are likely designed to slot or snap together at specific nodes, allowing for a modular assembly and disassembly.
|
B
|
Question: The assembled structure on the left is composed of interconnected elements. If this structure were disassembled, what is the most likely nature of the connections between these elements, based on their visual appearance?
Options:
A. The elements are likely connected by flexible joints or hinges, allowing for movement at the connection points.
B. The elements are likely designed to slot or snap together at specific nodes, allowing for a modular assembly and disassembly.
C. The elements are likely held together by an external adhesive or binding material that is not explicitly visible.
D. The elements are likely rigidly fused or welded together, making disassembly without breaking them difficult
Please select one correct answer from the given options based on the image.
| |
t01_final_08.png
|
Spatial Comprehension
|
Form Transformation
|
When the unroll surface on the left is folded, which is the most likely 3D form?
|
[
"Option4",
"Option3",
"Option2",
"Option1"
] |
Option1
|
D
|
Question: When the unroll surface on the left is folded, which is the most likely 3D form?
Options:
A. Option4
B. Option3
C. Option2
D. Option1
Please select one correct answer from the given options based on the image.
| |
t01_final_08.png
|
Spatial Comprehension
|
Form Transformation
|
What is the crucial principle that governs how the 2D net transforms into this specific 3D shape during assembly?
|
[
"The principle of aligning the overall symmetry of the net with the symmetry of the resulting polyhedron.",
"The principle of matching edge lengths in the net to form the edges of the polyhedron..",
"The principle of minimizing the number of folds required to assemble the shape.",
"The principle of ensuring the total area of the net equals the surface area of the polyhedron."
] |
The principle of matching edge lengths in the net to form the edges of the polyhedron..
|
B
|
Question: What is the crucial principle that governs how the 2D net transforms into this specific 3D shape during assembly?
Options:
A. The principle of aligning the overall symmetry of the net with the symmetry of the resulting polyhedron.
B. The principle of matching edge lengths in the net to form the edges of the polyhedron..
C. The principle of minimizing the number of folds required to assemble the shape.
D. The principle of ensuring the total area of the net equals the surface area of the polyhedron.
Please select one correct answer from the given options based on the image.
| |
t01_final_09.png
|
Spatial Comprehension
|
Form Transformation
|
When the surface on the left is rolled, what for on the right will be created?
|
[
"Option4",
"Option2",
"Option1",
"Option3"
] |
Option1
|
C
|
Question: When the surface on the left is rolled, what for on the right will be created?
Options:
A. Option4
B. Option2
C. Option1
D. Option3
Please select one correct answer from the given options based on the image.
| |
t01_final_09.png
|
Spatial Comprehension
|
Form Transformation
|
The 2D shape on the left is designed to be assembled into a 3D form by rolling and joining its long edges. If this assembly process were reversed to disassemble the resulting 3D object back into a 2D shape, what would be the most critical step to ensure the original 2D form is recovered without distortion?
|
[
"Carefully measuring the circumference of the rolled object before unrolling.",
"Gently flattening the 3D object without regard to the original folding direction.",
"Recording the exact number of rotations made during the initial rolling process.",
"Making a single, clean cut along the joined seam of the rolled object parallel to its axis."
] |
Making a single, clean cut along the joined seam of the rolled object parallel to its axis.
|
D
|
Question: The 2D shape on the left is designed to be assembled into a 3D form by rolling and joining its long edges. If this assembly process were reversed to disassemble the resulting 3D object back into a 2D shape, what would be the most critical step to ensure the original 2D form is recovered without distortion?
Options:
A. Carefully measuring the circumference of the rolled object before unrolling.
B. Gently flattening the 3D object without regard to the original folding direction.
C. Recording the exact number of rotations made during the initial rolling process.
D. Making a single, clean cut along the joined seam of the rolled object parallel to its axis.
Please select one correct answer from the given options based on the image.
| |
t01_final_11.png
|
Spatial Comprehension
|
Form Transformation
|
Which is the most likely form when the three exact primative shapes are assembled together?
|
[
"Option1",
"Option3",
"Option4",
"Option2"
] |
Option3
|
B
|
Question: Which is the most likely form when the three exact primative shapes are assembled together?
Options:
A. Option1
B. Option3
C. Option4
D. Option2
Please select one correct answer from the given options based on the image.
| |
t01_final_11.png
|
Spatial Comprehension
|
Form Transformation
|
If the assembled form shown in Option 3 were to be disassembled back into its original three components, what would be the most direct and logical sequence of actions?
|
[
"Disassemble all connections simultaneously, pulling the three components apart at once.",
"The disassembly sequence would depend entirely on the adhesive or joining method used, which is not visible",
"First, attempt to slide the sphere out from its position relative to the cube and prism, then separate the prism from the cube.",
"First, detach the triangular prism from the combined cube and sphere, then separate the sphere from the cube."
] |
The disassembly sequence would depend entirely on the adhesive or joining method used, which is not visible
|
B
|
Question: If the assembled form shown in Option 3 were to be disassembled back into its original three components, what would be the most direct and logical sequence of actions?
Options:
A. Disassemble all connections simultaneously, pulling the three components apart at once.
B. The disassembly sequence would depend entirely on the adhesive or joining method used, which is not visible
C. First, attempt to slide the sphere out from its position relative to the cube and prism, then separate the prism from the cube.
D. First, detach the triangular prism from the combined cube and sphere, then separate the sphere from the cube.
Please select one correct answer from the given options based on the image.
| |
t01_final_12.png
|
Spatial Comprehension
|
Form Transformation
|
When this surface on the left is folded, what is the most likely geometry?
|
[
"Option1",
"Option4",
"Option2",
"Option3"
] |
Option2
|
C
|
Question: When this surface on the left is folded, what is the most likely geometry?
Options:
A. Option1
B. Option4
C. Option2
D. Option3
Please select one correct answer from the given options based on the image.
| |
t01_final_12.png
|
Spatial Comprehension
|
Form Transformation
|
Imagine the 3D form resulting from performing the indicated fold needs to be disassembled back into its original flat configuration. What would be the most crucial piece of information to ensure the flat surface is fully and accurately restored?
|
[
"The precise dimensions of each individual planar element",
"The exact angle of the fold performed during assembly.",
"The precise shapes of each individual planar element.",
"The order in which the different planar elements were attached to the base surface."
] |
The exact angle of the fold performed during assembly.
|
B
|
Question: Imagine the 3D form resulting from performing the indicated fold needs to be disassembled back into its original flat configuration. What would be the most crucial piece of information to ensure the flat surface is fully and accurately restored?
Options:
A. The precise dimensions of each individual planar element
B. The exact angle of the fold performed during assembly.
C. The precise shapes of each individual planar element.
D. The order in which the different planar elements were attached to the base surface.
Please select one correct answer from the given options based on the image.
| |
t01_final_13.png
|
Spatial Comprehension
|
Form Transformation
|
Which is the most likely flat surface that folds into the form on the left?
|
[
"Option3",
"Option4",
"Option2",
"Option1"
] |
Option1
|
D
|
Question: Which is the most likely flat surface that folds into the form on the left?
Options:
A. Option3
B. Option4
C. Option2
D. Option1
Please select one correct answer from the given options based on the image.
| |
t01_final_13.png
|
Spatial Comprehension
|
Form Transformation
|
What key geometric principle dictates the relationship between the folded 3D form and its unfolded 2D counterpart?
|
[
"The principle of the longest dimension of the folded form corresponding to the longest dimension of the unfolded shape.",
"The principle of conserving the number of edges and vertices during folding and unfolding.",
"The principle of the total surface area remaining constant between the folded and unfolded states.",
"The principle of the overall silhouette of the folded form matching the perimeter of the unfolded shape."
] |
The principle of conserving the number of edges and vertices during folding and unfolding.
|
B
|
Question: What key geometric principle dictates the relationship between the folded 3D form and its unfolded 2D counterpart?
Options:
A. The principle of the longest dimension of the folded form corresponding to the longest dimension of the unfolded shape.
B. The principle of conserving the number of edges and vertices during folding and unfolding.
C. The principle of the total surface area remaining constant between the folded and unfolded states.
D. The principle of the overall silhouette of the folded form matching the perimeter of the unfolded shape.
Please select one correct answer from the given options based on the image.
| |
t01_final_14.png
|
Spatial Comprehension
|
Form Transformation
|
This form is made by assembling multiple units obtained from type A and type B, which options represent type A and type B?
|
[
"Option 3 and Option 1",
"Option 2 and Option 3",
"Option 4 and Option 2",
"Option 1 and Option 4"
] |
Option 1 and Option 4
|
D
|
Question: This form is made by assembling multiple units obtained from type A and type B, which options represent type A and type B?
Options:
A. Option 3 and Option 1
B. Option 2 and Option 3
C. Option 4 and Option 2
D. Option 1 and Option 4
Please select one correct answer from the given options based on the image.
| |
t01_final_15.png
|
Spatial Comprehension
|
Form Transformation
|
This building is made by assembling multiple units of type A and type B where mirroring is allowed, which options represent type A and type B?
|
[
"Option 3 and Option 1",
"Option 4 and Option 2",
"Option 1 and Option 2",
"Option 2 and Option 3"
] |
Option 1 and Option 2
|
C
|
Question: This building is made by assembling multiple units of type A and type B where mirroring is allowed, which options represent type A and type B?
Options:
A. Option 3 and Option 1
B. Option 4 and Option 2
C. Option 1 and Option 2
D. Option 2 and Option 3
Please select one correct answer from the given options based on the image.
| |
t01_final_15.png
|
Spatial Comprehension
|
Form Transformation
|
How many Option 1 units are needed to assemble the form on the left (mirroring the unit is allowed)?
|
[
"6",
"10",
"12",
"8"
] |
12
|
C
|
Question: How many Option 1 units are needed to assemble the form on the left (mirroring the unit is allowed)?
Options:
A. 6
B. 10
C. 12
D. 8
Please select one correct answer from the given options based on the image.
| |
t02_final_001.png
|
Environment Interaction
|
Design-Environment Interaction
|
What seems to be a benefit for taking the sun path into consideration that is demonstrated in the diagram?
|
[
"More lush surrounding greenery",
"Warmer interior",
"Green roof",
"More natural lighting"
] |
Green roof
|
C
|
Question: What seems to be a benefit for taking the sun path into consideration that is demonstrated in the diagram?
Options:
A. More lush surrounding greenery
B. Warmer interior
C. Green roof
D. More natural lighting
Please select one correct answer from the given options based on the image.
| |
t02_final_001.png
|
Environment Interaction
|
Design-Environment Interaction
|
What is not shown as a benefit of the design that considers the sun in the diagram?
|
[
"To meet authorities requirements on skyscraper’s visual porosity.",
"To zone spaces using sunlight.",
"To ensure greenery gets sufficient sunlight.",
"To provide weather shield."
] |
To meet authorities requirements on skyscraper’s visual porosity.
|
A
|
Question: What is not shown as a benefit of the design that considers the sun in the diagram?
Options:
A. To meet authorities requirements on skyscraper’s visual porosity.
B. To zone spaces using sunlight.
C. To ensure greenery gets sufficient sunlight.
D. To provide weather shield.
Please select one correct answer from the given options based on the image.
| |
t02_final_002.png
|
Environment Interaction
|
Design-Environment Interaction
|
The orange part shows a newly introduced project beside a lake. What is the main consideration for the new project, as shown in the diagram?
|
[
"Sun path, to provide shade.",
"Topography, to not block old views.",
"Trees, to ensure central trees are preseved.",
"Topography, to allow for docking of boats."
] |
Topography, to not block old views.
|
B
|
Question: The orange part shows a newly introduced project beside a lake. What is the main consideration for the new project, as shown in the diagram?
Options:
A. Sun path, to provide shade.
B. Topography, to not block old views.
C. Trees, to ensure central trees are preseved.
D. Topography, to allow for docking of boats.
Please select one correct answer from the given options based on the image.
| |
t02_final_002.png
|
Environment Interaction
|
Design-Environment Interaction
|
What is less likely a reason for introducing the new raised topography as shown in orange in the diagram?
|
[
"New points of view.",
"Sun shading.",
"Flood prevention measures .",
"New welcome point."
] |
New welcome point.
|
D
|
Question: What is less likely a reason for introducing the new raised topography as shown in orange in the diagram?
Options:
A. New points of view.
B. Sun shading.
C. Flood prevention measures .
D. New welcome point.
Please select one correct answer from the given options based on the image.
| |
t02_final_003.png
|
Environment Interaction
|
Design-Environment Interaction
|
What is driving the form of the building?
|
[
"Topography and wind",
"Views and topography",
"Wind and views",
"Access and wind"
] |
Views and topography
|
B
|
Question: What is driving the form of the building?
Options:
A. Topography and wind
B. Views and topography
C. Wind and views
D. Access and wind
Please select one correct answer from the given options based on the image.
| |
t02_final_003.png
|
Environment Interaction
|
Design-Environment Interaction
|
What achievement of the building is emphasised in the diagram?
|
[
"Natural ventilation",
"Segregation of vertical spaces",
"New views",
"Increased floor area"
] |
New views
|
C
|
Question: What achievement of the building is emphasised in the diagram?
Options:
A. Natural ventilation
B. Segregation of vertical spaces
C. New views
D. Increased floor area
Please select one correct answer from the given options based on the image.
| |
t02_final_004.png
|
Environment Interaction
|
Design-Environment Interaction
|
What element does the structure not interact with?
|
[
"Sun",
"Ground",
"Trees",
"Rocks"
] |
Sun
|
A
|
Question: What element does the structure not interact with?
Options:
A. Sun
B. Ground
C. Trees
D. Rocks
Please select one correct answer from the given options based on the image.
| |
t02_final_004.png
|
Environment Interaction
|
Design-Environment Interaction
|
What is one key feature the structure provides as emphasised in the diagram?
|
[
"Sense of arrival",
"Rain collection",
"Acoustics",
"Views"
] |
Views
|
D
|
Question: What is one key feature the structure provides as emphasised in the diagram?
Options:
A. Sense of arrival
B. Rain collection
C. Acoustics
D. Views
Please select one correct answer from the given options based on the image.
|
End of preview. Expand
in Data Studio
README.md exists but content is empty.
- Downloads last month
- 20