2007 USAMO Problems/Problem 6
Problem
Let be an acute triangle with , , and being its incircle, circumcircle, and circumradius, respectively. Circle is tangent internally to at and tangent externally to . Circle is tangent internally to at and tangent internally to . Let and denote the centers of and , respectively. Define points , , , analogously. Prove that
with equality if and only if triangle is equilateral.
Solution
Lemma:
Proof: Note and lie on since for a pair of tangent circles, the point of tangency and the two centers are collinear.
Let touch , , and at , , and , respectively. Note . Consider an inversion, , centered at , passing through , . Since , is orthogonal to the inversion circle, so . Consider . Note that passes through and is tangent to , hence is a line that is tangent to . Furthermore, because inversions map a circle's center collinear with the center of inversion. Likewise, is the other line tangent to and perpendicular to .
Let w_{A} AO=X and w_{A}' AO=X' [second intersection].
Let \Omega_{A} AO=Y and \Omega_{A}' AO=Y' [second intersection].
Evidently, and . We want:
by inversion. Note that , and they are tangent to , so the distance between those lines is . Drop a perpendicular from to , touching at . Then . Then , =. So
Note that . Applying the double angle formulas and , we get
End Lemma--
The problem becomes:
which is true because , equality is when the circumcenter and incenter coincide. As before, , so, by symmetry, . Hence the inequality is true iff is equilateral.
Comment: It is much easier to determine by considering . We have , , , and . However, the inversion is always nice to use. This also gives an easy construction for because the tangency point is collinear with the intersection of and .
Solution by AoPS user Altheman
2007 USAMO (Problems • Resources) | ||
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