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1. |
Suppose that, in a tessellation by regular hexagons and equilateral triangles, two hexagons meet at a vertex. How many of the triangles must meet at that vertex? |
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A. |
4 |
B. |
3 |
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C. |
2 |
D. |
1 |
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Hint |
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2. |
Which term describes the tessellation below? |
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A. |
uniform |
B. |
semi-regular |
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C. |
none of these |
D. |
not uniform |
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Hint |
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3. |
Which tessellation is not uniform? |
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A. |
 |
B. |
 |
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C. |
 |
D. |
 |
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Hint |
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4. |
Analyze the figure. Determine if it will tessellate in a plane or not and if so, which type of tessellation will it be. |
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A. |
Yes, uniform and semi-regular |
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B. |
Yes, regular |
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C. |
Yes, not uniform |
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D. |
No, it will form an overlapping pattern |
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Hint |
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5. |
Determine if a semi-regular tessellation can be created from 2 hexagons and 1 square, all having sides of 1 unit long. |
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A. |
No, the angle measures are only 300° |
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B. |
No, the angle measures are only 330° |
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C. |
Yes, the angle measures are 360° |
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D. |
Yes, the angle measures are 180° |
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Hint |
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