2021 Fall AMC 10A Problems/Problem 17
Problem
An architect is building a structure that will place vertical pillars at the vertices of regular hexagon , which is lying horizontally on the ground. The six pillars will hold up a flat solar panel that will not be parallel to the ground. The heights of pillars at , , and are , , and meters, respectively. What is the height, in meters, of the pillar at ?
Diagram
Solution
Since the pillar at has height and the pillar at has height and the solar panel is flat, the inclination from pillar to pillar would be . Call the center of the hexagon . Since is parallel to , has a height of . Since the solar panel is flat, should be a straight line and therefore, E has a height of = .
~Arcticturn
Solution 2
Let the height of the pillar at be Notice that the difference between the heights of pillar and pillar is equal to the difference between the heights of pillar and pillar So, the height at is Now, doing the same thing for pillar we get the height is Therefore, we can see the difference between the heights at pillar and pillar is half the difference between the heights at and so
- kante314
Solution 3 (Extend the lines)
We can extend and to and , respectively, such that and lies on : Because of hexagon proportions, and . Let be the height of . Because , and lie on the same line, , so and . Similarly, the height of is . is the midpoint of , so we can take the average of these heights to get our answer, .
~ihatemath123
See Also
2021 Fall AMC 10A (Problems • Answer Key • Resources) | ||
Preceded by Problem 16 |
Followed by Problem 18 | |
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