Mock AIME 1 2010 Problems/Problem 13

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Problem

Suppose $\triangle ABC$ is inscribed in circle $\Gamma$. $B_1$ and $C_1$ are the feet of the altitude from $B$ to $CA$ and $C$ to $AB$, respectively. Let $D$ be the intersection of lines $\overline{B_1 C_1}$ and $\overline{BC}$, let $E$ be the point of intersection of $\Gamma$ and line $\overline{DA}$ distinct from $A$, and let $F$ be the foot of the perpendicular from $E$ to $BD$. Given that $BD = 28$, $EF = \frac{20 \sqrt{159}}{7}$, and $ED^2 + EB^2 = 3050$, and that $\tan m \angle ACB$ can be expressed in the form $\frac{a \sqrt{b}}{c}$, where $a$ and $c$ are relatively prime positive integers and $b$ is an integer not divisible by the square of any prime, find the last three digits of $a + b + c$.

Solution

[asy]  import geometry;  size(8cm);  point B = origin; point A = (3,8); point C = (12,0);  triangle t = triangle(A,B,C); circle c = circumcircle(t);  point B1 = foot(t.VB); point C1 = foot(t.VC);  point D = intersectionpoint(line(B1,C1), line(B,C));  pair[] e = intersectionpoints(line(A,D), c); point E = e[0];  // Triangle ABC and Circumcircle draw(t); draw(c);  // Altitudes draw(B--B1); draw(C--C1);  // Segments AD,EB,BD, and B_1D draw(A--D); draw(E--B); draw(B--D); draw(B1--D);  // Point Labels dot(A); label("A",A,NW); dot(B); label("B",B,SSW); dot(C); label("C",C,SE);  dot(B1); label("B$_1$",B1,NE); dot(C1); label("C$_1$",C1,NNW);  dot(D); label("D",D,SW); dot(E); label("E",E,NW);  [/asy]

$\boxed{372}$.

See Also

Mock AIME 1 2010 (Problems, Source)
Preceded by
Problem 12
Followed by
Problem 14
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