Art of Problem Solving
AoPS Online
Math texts, online classes, and more
for students in grades 5-12.
Visit AoPS Online
Books for Grades 5-12 Online Courses
Beast Academy
Engaging math books and online learning
for students ages 6-13.
Visit Beast Academy
Books for Ages 6-13 Beast Academy Online
AoPS Academy
Small live classes for advanced math
and language arts learners in grades 2-12.
Visit AoPS Academy
Find a Physical Campus Visit the Virtual Campus

Difference between revisions of "Excircle"

(Olympiad: source)
(Olympiad: another problem)
Line 14: Line 14:
 
===Olympiad===
 
===Olympiad===
 
*<math>\triangle ABC</math> is a triangle. Take points <math>D, E, F</math> on the perpendicular bisectors of <math>BC, CA, AB</math> respectively. Show that the lines through <math>A, B, C</math> perpendicular to <math>EF, FD, DE</math> respectively are concurrent. ([[1997 USAMO Problems/Problem 2|Source]])
 
*<math>\triangle ABC</math> is a triangle. Take points <math>D, E, F</math> on the perpendicular bisectors of <math>BC, CA, AB</math> respectively. Show that the lines through <math>A, B, C</math> perpendicular to <math>EF, FD, DE</math> respectively are concurrent. ([[1997 USAMO Problems/Problem 2|Source]])
 +
*Let <math>ABC</math> be a triangle with circumcircle <math>\omega.</math> Point <math>D</math> lies on side <math>BC</math> such that <math>\angle BAD = \angle CAD.</math> Let <math>I_{A}</math> denote the excenter of triangle <math>ABC</math> opposite <math>A,</math> and let <math>\omega_{A}</math> denote the circle with <math>AI_{A}</math> as its diameter. Circles <math>\omega</math> and <math>\omega_{A}</math> meet at <math>P</math> other than <math>A.</math> The circumcle of triangle <math>APD</math> meet line <math>BC</math> again at <math>Q\, (</math>other than <math>D).</math> Prove that <math>Q</math> lies on the excircle of triangle <math>ABC</math> opposite <math>A</math>. (Source: Problem 13.2 - MOSP 2007)
  
 
==See also==
 
==See also==

Revision as of 10:13, 5 November 2007

An excircle is a circle tangent to the extensions of two sides of a triangle and the third side.

An image is supposed to go here. You can help us out by creating one and editing it in. Thanks.

Properties

For any triangle, there are three unique excircles. This follows from the fact that there is one, if any, circle such that three given distinct lines are tangent to it.

Related Formulas

  • If the circle is tangent to side $a$ of the circle, the radius is $\frac{2K}{-a+b+c}$, where $K$ is the triangle's area, and $a,b,c$ are side lengths.
  • If the circle is tangent to side $b$ of the circle, the radius is $\frac{2K}{a-b+c}$, where $K$ is the triangle's area, and $a,b,c$ are side lengths.
  • If the circle is tangent to side $c$ of the circle, the radius is $\frac{2K}{a+b-c}$, where $K$ is the triangle's area, and $a,b,c$ are side lengths.

Problems

Introductory

Intermediate

Olympiad

  • $\triangle ABC$ is a triangle. Take points $D, E, F$ on the perpendicular bisectors of $BC, CA, AB$ respectively. Show that the lines through $A, B, C$ perpendicular to $EF, FD, DE$ respectively are concurrent. (Source)
  • Let $ABC$ be a triangle with circumcircle $\omega.$ Point $D$ lies on side $BC$ such that $\angle BAD = \angle CAD.$ Let $I_{A}$ denote the excenter of triangle $ABC$ opposite $A,$ and let $\omega_{A}$ denote the circle with $AI_{A}$ as its diameter. Circles $\omega$ and $\omega_{A}$ meet at $P$ other than $A.$ The circumcle of triangle $APD$ meet line $BC$ again at $Q\, ($other than $D).$ Prove that $Q$ lies on the excircle of triangle $ABC$ opposite $A$. (Source: Problem 13.2 - MOSP 2007)

See also

Retrieved from "https://artofproblemsolving.com/wiki/index.php?title=Excircle&oldid=19139"