Difference between revisions of "1984 AIME Problems/Problem 3"
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+ | == Solution 4 == | ||
+ | Since the three lines through <math>P</math> are parallel to the sides, <math>t_1</math>, <math>t_2</math>, <math>t_3</math>, and <math>\triangle{ABC}</math> are similar by <math>AA</math> similarity. Suppose the area of <math>\triangle{ABC}</math> is <math>x^2</math>, so the ratio of the base of <math>t_1</math> to the base of <math>t_2</math> to the base of <math>t_3</math> to the base of <math>\triangle{ABC}</math> is <math>2:3:7:x</math>. Because the quadrilaterals below <math>t_1</math> and <math>t_2</math> are parallelograms, the base of <math>\triangle{ABC}</math> is equal to the sum of the bases of <math>t_1, t_2,</math> and <math>t_3</math>. Therefore, <math>x</math> equals <math>2+3+7=12</math> so the area of <math>\triangle{ABC}</math> equals <math>x^2=12^2=\boxed{144}.</math> | ||
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+ | -Yiyj1 | ||
+ | |||
+ | == Video Solution by OmegaLearn == | ||
+ | https://youtu.be/hDsoyvFWYxc?t=199 | ||
+ | |||
+ | ~ pi_is_3.14 | ||
== See also == | == See also == |
Latest revision as of 12:39, 13 August 2023
Contents
Problem
A point is chosen in the interior of such that when lines are drawn through parallel to the sides of , the resulting smaller triangles , , and in the figure, have areas , , and , respectively. Find the area of .
Solution 1
By the transversals that go through , all four triangles are similar to each other by the postulate. Also, note that the length of any one side of the larger triangle is equal to the sum of the sides of each of the corresponding sides on the smaller triangles. We use the identity to show that the areas are proportional (the sides are proportional and the angles are equal) Hence, we can write the lengths of corresponding sides of the triangle as . Thus, the corresponding side on the large triangle is , and the area of the triangle is .
Solution 2
Alternatively, since the triangles are similar by , then the ratios between the bases and the heights of each of the three triangles would all be equal. The areas of each of the triangles are all perfect squares, so we could assume That means that the base of is 4, the base of is 6, and the base of is 14. Since the quadrilaterals underneath and are both parallelograms, and opposite sides of a parallelogram are congruent, the base of the large triangle is . Therefore, the height of the entire triangle would be twelve, so therefore, the area of the large triangle is .
Solution 3
The base of is . Let the base of be , the base of be , and the base of be . Since and are all similar, the sections in that aren't or are all parallelograms. Hence, . We can relate and by the square root of the ratio of their areas. and so and . , so has a base that is times . .
-PhunsukhWangdu
Solution 4
Since the three lines through are parallel to the sides, , , , and are similar by similarity. Suppose the area of is , so the ratio of the base of to the base of to the base of to the base of is . Because the quadrilaterals below and are parallelograms, the base of is equal to the sum of the bases of and . Therefore, equals so the area of equals
-Yiyj1
Video Solution by OmegaLearn
https://youtu.be/hDsoyvFWYxc?t=199
~ pi_is_3.14
See also
1984 AIME (Problems • Answer Key • Resources) | ||
Preceded by Problem 2 |
Followed by Problem 4 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |