Difference between revisions of "1993 AIME Problems/Problem 15"
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− | It can be shown that in any triangle with side lengths <math>n-1, n, n+1</math>, if you draw an altitude from the vertex to the side of <math>n+1</math>, and draw the incircles of the two right triangles, the distance between the two tangency points is simply <math>\frac{n-2}{2n+2 | + | It can be shown that in any triangle with side lengths <math>n-1, n, n+1</math>, if you draw an altitude from the vertex to the side of <math>n+1</math>, and draw the incircles of the two right triangles, the distance between the two tangency points is simply <math>\frac{n-2}{2n+2}=\frac{n-2}{2(n+1)}</math>. |
Plugging in <math>n=1994</math> yields that the answer is <math>\frac{1992}{2(1995)}</math>, which simplifies to <math>\frac{332}{665}</math> | Plugging in <math>n=1994</math> yields that the answer is <math>\frac{1992}{2(1995)}</math>, which simplifies to <math>\frac{332}{665}</math> | ||
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~minor edit by [[User: Yiyj1|Yiyj1]] | ~minor edit by [[User: Yiyj1|Yiyj1]] | ||
− | Note: We can also just right it as <math>RS=\frac{|b-a|(a+b-c)}{2c}</math> since <math>a+b-c \ | + | Note: We can also just right it as <math>RS=\frac{|b-a|(a+b-c)}{2c}</math> since <math>a+b-c \geq 0</math> by the triangle inequality. ~[[User: Yiyj1|Yiyj1]] |
== See also == | == See also == |
Latest revision as of 20:39, 21 September 2023
Problem
Let be an altitude of . Let and be the points where the circles inscribed in the triangles and are tangent to . If , , and , then can be expressed as , where and are relatively prime integers. Find .
Solution
From the Pythagorean Theorem, , and .
Subtracting those two equations yields .
After simplification, we see that , or .
Note that .
Therefore we have that .
Therefore .
Now note that , , and .
Therefore we have .
Plugging in and simplifying, we have .
Edit by GameMaster402:
It can be shown that in any triangle with side lengths , if you draw an altitude from the vertex to the side of , and draw the incircles of the two right triangles, the distance between the two tangency points is simply .
Plugging in yields that the answer is , which simplifies to
~minor edit by Yiyj1
Edit by phoenixfire:
It can further be shown for any triangle with sides that Over here , so using the formula gives
~minor edit by Yiyj1
Note: We can also just right it as since by the triangle inequality. ~Yiyj1
See also
1993 AIME (Problems • Answer Key • Resources) | ||
Preceded by Problem 14 |
Followed by Last question | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |
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