2009 AIME II Problems/Problem 10

Four lighthouses are located at points $A$ , $B$ , $C$ , and $D$ . The lighthouse at $A$ is $5$ kilometers from the lighthouse at $B$ , the lighthouse at $B$ is $12$ kilometers from the lighthouse at $C$ , and the lighthouse at $A$ is $13$ kilometers from the lighthouse at $C$ . To an observer at $A$ , the angle determined by the lights at $B$ and $D$ and the angle determined by the lights at $C$ and $D$ are equal. To an observer at $C$ , the angle determined by the lights at $A$ and $B$ and the angle determined by the lights at $D$ and $B$ are equal. The number of kilometers from $A$ to $D$ is given by $\frac {p\sqrt{q}}{r}$ , where $p$ , $q$ , and $r$ are relatively prime positive integers, and $r$ is not divisible by the square of any prime. Find $p$ + $q$ + $r$ .

Solution

Let $O$ be the intersection of $BC$ and $AD$ . By the Angle Bisector Theorem, $\frac {5}{BO}$ = $\frac {13}{CO}$ , so $BO$ = $5x$ and $CO$ = $13x$ , and $BO$ + $OC$ = $BC$ = $12$ , so $x$ = $\frac {2}{3}$ , and $OC$ = $\frac {26}{3}$ . Let $P$ be the altitude from $D$ to $OC$ . It can be seen that triangle $DOP$ is similar to triangle $AOB$ , and triangle $DPC$ is similar to triangle $ABC$ . If $DP$ = $15y$ , then $CP$ = $36y$ , $OP$ = $10y$ , and $OD$ = $5y\sqrt {13}$ . Since $OP$ + $CP$ = $46y$ = $\frac {26}{3}$ , $y$ = $\frac {13}{69}$ , and $AD$ = $\frac {60\sqrt{13}}{23}$ . The answer is $60$ + $13$ + $23$ = $\boxed{096}$ .

2009 AIME II (Problems • Answer Key • Resources)
Preceded by Problem 9	Followed by Problem 11
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2009 AIME II Problems/Problem 10

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