Category
stringclasses 4
values | Task
stringclasses 12
values | Level
stringclasses 5
values | Image_id
stringlengths 1
51
| Question
stringclasses 197
values | Choices
listlengths 4
4
| Answer
stringclasses 4
values | Explanation
stringlengths 52
839
|
|---|---|---|---|---|---|---|---|
MentalFolding
|
CubeReconstruction
|
Level1
|
0
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
1
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
2
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
3
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
4
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
5
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
6
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
7
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
8
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
9
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
10
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
11
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
12
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
13
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-top-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
14
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
15
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-bottom-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
16
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
17
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-bottom-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
18
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
19
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the front-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
20
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the front-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
21
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
22
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
23
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
24
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
25
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
26
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
27
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
28
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
29
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
30
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
31
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
32
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
33
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
34
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
35
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-top-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
36
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
37
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
38
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level1
|
39
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
0
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
1
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
2
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
3
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-top-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
4
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
5
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
6
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
7
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
8
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
9
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-bottom-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
10
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
11
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
12
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
13
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the front-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
14
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the front-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
15
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the front-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
16
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
17
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
18
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
19
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
20
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-bottom-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
21
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a vertically mirrored version of the front-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
22
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the front-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
23
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
24
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is correct because it shows the back-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the front-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
25
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
26
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-top-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the back-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
27
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
28
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
29
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the back-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
30
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-bottom-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
31
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
32
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-top-left view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-bottom-left view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a horizontally mirrored version of the front-top-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
33
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it is a horizontally mirrored version of the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
34
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-bottom-right view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
35
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is correct because it shows the front-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the back-bottom-right view.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
36
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the front-top-left view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the front-bottom-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
37
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the back-top-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a horizontally mirrored version of the front-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
38
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is correct because it shows the front-bottom-right view.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is incorrect because it is a vertically mirrored version of the back-top-left view.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a horizontally mirrored version of the back-top-right view.'}
|
MentalFolding
|
CubeReconstruction
|
Level2
|
39
|
The left image shows the net (unfolded pattern) of a cube, with six faces having different patterns. The net is folded upward to form a cube. From an axonometric (3D) viewing angle of the cube, which combination of adjacent patterns is possible to see? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'A': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option A is correct because it shows the back-top-right view.', 'C': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option C is incorrect because it includes rotated non-symmetric faces.', 'B': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option B is incorrect because it includes rotated non-symmetric faces.', 'D': 'Assuming the bottom face is the first cell in the second row of the net, and the right face is the cell to its right. Option D is incorrect because it is a vertically mirrored version of the front-bottom-left view.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
0
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'ADB': 'Option ADB is incorrect because this net could be a valid net for the given cube, as the positions of red, pink, and blue match the shown cube.', 'C': 'Option C is correct because this net cannot be a valid net for the given cube, as the positions of yellow and pink are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
1
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'CDB': 'Option CDB is incorrect because this net could be a valid net for the given cube, as the positions of blue, red, and green match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of pink and red are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
2
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'BDA': 'Option BDA is incorrect because this net could be a valid net for the given cube, as the positions of red, blue, and green match the shown cube.', 'C': 'Option C is correct because this net cannot be a valid net for the given cube, as the positions of pink and red are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
3
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'ACB': 'Option ACB is incorrect because this net could be a valid net for the given cube, as the positions of yellow, red, and cyan match the shown cube.', 'D': 'Option D is correct because this net cannot be a valid net for the given cube, as the positions of green and yellow are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
4
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'CBA': 'Option CBA is incorrect because this net could be a valid net for the given cube, as the positions of cyan, blue, and pink match the shown cube.', 'D': 'Option D is correct because this net cannot be a valid net for the given cube, as the positions of yellow and blue are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
5
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'DCB': 'Option DCB is incorrect because this net could be a valid net for the given cube, as the positions of cyan, green, and blue match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of yellow and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
6
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'BDA': 'Option BDA is incorrect because this net could be a valid net for the given cube, as the positions of blue, red, and cyan match the shown cube.', 'C': 'Option C is correct because this net cannot be a valid net for the given cube, as the positions of green and blue are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
7
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'ADC': 'Option ADC is incorrect because this net could be a valid net for the given cube, as the positions of red, cyan, and green match the shown cube.', 'B': 'Option B is correct because this net cannot be a valid net for the given cube, as the positions of blue and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
8
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'BDC': 'Option BDC is incorrect because this net could be a valid net for the given cube, as the positions of green, blue, and cyan match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of yellow and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
9
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'BCA': 'Option BCA is incorrect because this net could be a valid net for the given cube, as the positions of cyan, green, and yellow match the shown cube.', 'D': 'Option D is correct because this net cannot be a valid net for the given cube, as the positions of pink and cyan are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
10
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'CBD': 'Option CBD is incorrect because this net could be a valid net for the given cube, as the positions of yellow, cyan, and blue match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of pink and cyan are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
11
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'DCB': 'Option DCB is incorrect because this net could be a valid net for the given cube, as the positions of green, yellow, and cyan match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of pink and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
12
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
C
|
{'ADB': 'Option ADB is incorrect because this net could be a valid net for the given cube, as the positions of green, pink, and blue match the shown cube.', 'C': 'Option C is correct because this net cannot be a valid net for the given cube, as the positions of red and pink are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
13
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'CDA': 'Option CDA is incorrect because this net could be a valid net for the given cube, as the positions of red, cyan, and blue match the shown cube.', 'B': 'Option B is correct because this net cannot be a valid net for the given cube, as the positions of green and blue are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
14
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'DCA': 'Option DCA is incorrect because this net could be a valid net for the given cube, as the positions of cyan, red, and blue match the shown cube.', 'B': 'Option B is correct because this net cannot be a valid net for the given cube, as the positions of pink and blue are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
15
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'ADC': 'Option ADC is incorrect because this net could be a valid net for the given cube, as the positions of green, red, and yellow match the shown cube.', 'B': 'Option B is correct because this net cannot be a valid net for the given cube, as the positions of pink and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
16
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'CDB': 'Option CDB is incorrect because this net could be a valid net for the given cube, as the positions of cyan, pink, and blue match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of yellow and cyan are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
17
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
A
|
{'DBC': 'Option DBC is incorrect because this net could be a valid net for the given cube, as the positions of yellow, red, and cyan match the shown cube.', 'A': 'Option A is correct because this net cannot be a valid net for the given cube, as the positions of green and cyan are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
18
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
B
|
{'ACD': 'Option ACD is incorrect because this net could be a valid net for the given cube, as the positions of blue, yellow, and green match the shown cube.', 'B': 'Option B is correct because this net cannot be a valid net for the given cube, as the positions of pink and green are reversed.'}
|
MentalFolding
|
CubeUnfolding
|
Level0
|
19
|
The left image shows a colored cube from a particular viewing angle. The options are nets (unfolded patterns) of the cube, which are folded upward to form the cube. Which net, when folded, cannot form the cube shown in the left image? Please answer from options A, B, C, or D.
|
[
"A",
"B",
"C",
"D"
] |
D
|
{'ACB': 'Option ACB is incorrect because this net could be a valid net for the given cube, as the positions of blue, pink, and yellow match the shown cube.', 'D': 'Option D is correct because this net cannot be a valid net for the given cube, as the positions of green and yellow are reversed.'}
|
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