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Shape Assembly Advanced Worksheet: Focus on exam-oriented approach Shape Assembly ADVANCED

Level up your Shape Assembly skills! You're at Worksheet 8 of 10 (77% through this series). This exam hall simulation worksheet features 20 advanced-level problems with a focus on exam-oriented approach. Topics covered: shape assembly bank exam questions, shape assembly ssc cgl, shape assembly reasoning tricks.

📝 Worksheet 8 of 10 • 20 questions • ⏱️ Estimated time: 20 minutes • 🎯 Advanced level

What you'll learn in this worksheet:
Your progress through Shape Assembly
Worksheet 8 of 10 (77% complete)

Question 1

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 2

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ▲ + ▭ + ▲
The triangular prism can be constructed from:
triangle, rectangle, triangle arranged appropriately.
This is a standard net/assembly pattern for a triangular prism.

Question 3

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ⚪ + ▭ + ⚪
The cylinder can be constructed from:
circle, rectangle, circle arranged appropriately.
This is a standard net/assembly pattern for a cylinder.

Question 4

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ⚪ + ▭ + ⚪
The cylinder can be constructed from:
circle, rectangle, circle arranged appropriately.
This is a standard net/assembly pattern for a cylinder.

Question 5

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 6

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ▲ + ▭ + ▲
The triangular prism can be constructed from:
triangle, rectangle, triangle arranged appropriately.
This is a standard net/assembly pattern for a triangular prism.

Question 7

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 8

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 9

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 10

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 11

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ⚪ + ▭ + ⚪
The cylinder can be constructed from:
circle, rectangle, circle arranged appropriately.
This is a standard net/assembly pattern for a cylinder.

Question 12

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ▲ + ▭ + ▲
The triangular prism can be constructed from:
triangle, rectangle, triangle arranged appropriately.
This is a standard net/assembly pattern for a triangular prism.

Question 13

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 14

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ▲ + ▭ + ▲
The triangular prism can be constructed from:
triangle, rectangle, triangle arranged appropriately.
This is a standard net/assembly pattern for a triangular prism.

Question 15

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 16

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ⚪ + ▭ + ⚪
The cylinder can be constructed from:
circle, rectangle, circle arranged appropriately.
This is a standard net/assembly pattern for a cylinder.

Question 17

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 18

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: ▲ + ▭ + ▲
The triangular prism can be constructed from:
triangle, rectangle, triangle arranged appropriately.
This is a standard net/assembly pattern for a triangular prism.

Question 19

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.

Question 20

If you assemble these 2D shapes in 3D space by joining matching edges, which 3D shape do you get? Parts: 6 × ⬜
The cube can be constructed from:
square, square, square, square, square, square arranged appropriately.
This is a standard net/assembly pattern for a cube.
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