Difference between revisions of "2002 Indonesia MO Problems/Problem 4"

Latest revision as of 21:01, 24 September 2020

Given a triangle $ABC$ with $AC > BC$ . On the circumcircle of triangle $ABC$ there exists point $D$ , which is the midpoint of arc $AB$ that contains $C$ . Let $E$ be a point on $AC$ such that $DE$ is perpendicular to $AC$ . Prove that $AE = EC + CB$ .

Solution

$[asy] size(5cm); draw(unitcircle); pair A, C, B; A = (-0.6, 0.8); C = (0.6, 0.8); B = (0.8, 0.6); dot(A); dot(C); dot(B); label("$A$", A, NW); label("$C$", C, N); label("$B$", B, SE); draw(C--B--A); pair Bp; Bp = (0.88, 0.8); dot(Bp, blue); label("$B'$", Bp, NE, blue); draw(A -- Bp); pair midAB, dirAB; midAB = (A + B)/2; dirAB = (B - A); path perpAB; perpAB = (midAB - dir(90)*dirAB) -- (midAB + dir(90)*dirAB); draw(perpAB, blue); pair Ep, dirABp; path perpABp; Ep = (A + Bp)/2; dirABp = (Bp - A); perpABp = (Ep - dir(90)*dirABp) -- (Ep + dir(90)*dirABp); dot(Ep, blue); label("$E'$", Ep, NW, blue); draw(perpABp, blue); pair Dp; Dp = intersectionpoint(perpAB, perpABp); dot(Dp, blue); label("$D'$", Dp, NW, blue); draw(Bp--Dp--B, red); draw(C--Dp--A, red); [/asy]$

We use the method of phantom points.

Draw $AC$ and $BC$ , and extend line $AC$ past $C$ to a point $B'$ such that $BC = B'C$ . Draw point $E'$ at the midpoint of $AB'$ , and $D'$ at the intersection of the perpendicular to $AC$ from $E'$ and the perpendicular bisector of $AB$ .

Since $D'B = D'B', CB = CB', D'C = D'C$ , we have $\triangle D'BC \cong \triangle D'B'C$ by side-side-side similarity. Then $\angle D'AC = \angle D'AE' = \angle D'B'E' = \angle D'B'C = \angle D'BC$ , so $ADCB$ is cyclic.

In particular, since we have $AD' = B'D' = BD'$ , we know that $D'$ must be the midpoint of the arc of the circumcircle of $\triangle ABC$ that contains point $C$ , and since $D'$ was on the perpendicular to $AC$ from $E'$ , we must have that $E'$ is the foot of the perpendicular of $D'$ to $AC$ . But this uniquely identifies $D' = D, E' = E$ , and we are done.

2002 Indonesia MO (Problems)
Preceded by Problem 3	1 • 2 • 3 • 4 • 5 • 6 • 7 • 8	Followed by Problem 5
All Indonesia MO Problems and Solutions

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Difference between revisions of "2002 Indonesia MO Problems/Problem 4"

Latest revision as of 21:01, 24 September 2020

Solution

See also

@@ Line 2: / Line 2: @@
 == Solution ==
+<asy>
+size(5cm);
+draw(unitcircle);
+pair A, C, B;
+A = (-0.6, 0.8);
+C = (0.6, 0.8);
+B = (0.8, 0.6);
+dot(A);
+dot(C);
+dot(B);
+label("$A$", A, NW);
+label("$C$", C, N);
+label("$B$", B, SE);
+draw(C--B--A);
+pair Bp;
+Bp = (0.88, 0.8);
+dot(Bp, blue);
+label("$B'$", Bp, NE, blue);
+draw(A -- Bp);
+pair midAB, dirAB;
+midAB = (A + B)/2;
+dirAB = (B - A);
+path perpAB;
+perpAB = (midAB - dir(90)*dirAB) -- (midAB + dir(90)*dirAB);
+draw(perpAB, blue);
+pair Ep, dirABp;
+path perpABp;
+Ep = (A + Bp)/2;
+dirABp = (Bp - A);
+perpABp = (Ep - dir(90)*dirABp) -- (Ep + dir(90)*dirABp);
+dot(Ep, blue);
+label("$E'$", Ep, NW, blue);
+draw(perpABp, blue);
+pair Dp;
+Dp = intersectionpoint(perpAB, perpABp);
+dot(Dp, blue);
+label("$D'$", Dp, NW, blue);
+draw(Bp--Dp--B, red);
+draw(C--Dp--A, red);
+</asy>
 We use the method of phantom points.