Bariz - Problem

Source: 2018 Thailand October Camp 1.2

Tags: geometry, incircle, collinear

parmenides51

15.10.2020 13:48

Let $\Omega$ be the inscribed circle of a triangle $\vartriangle ABC$. Let $D, E$ and $F$ be the tangency points of $\Omega$ and the sides $BC, CA$ and $AB$, respectively, and let $AD, BE$ and $CF$ intersect $\Omega$ at $K, L$ and $M$, respectively, such that $D, E, F, K, L$ and $M$ are all distinct. The tangent line of $\Omega$ at $K$ intersects $EF$ at $X$, the tangent line of $\Omega$ at $L$ intersects $DE$ at $Y$ , and the tangent line of $\Omega$ at M intersects $DF$ at $Z$. Prove that $X,Y$ and $Z$ are collinear.

Since $\overline{XK}$ touch $\Omega$ at $K$, polar of $X$ w.r.t. $\Omega$ pass $K$. Also, $\overline{AE},\overline{AF}$ touch $\Omega$ at $E,F$ respectively, so polar of $A$ w.r.t. $\Omega$ is $\overline{EF}$ which pass $X$. By La Hire’s Theorem, polar of $X$ w.r.t $\Omega$ pass $A$. Thus polar of $X$ w.r.t. $\Omega$ is $\overline{AK}$ which is $\overline{AD}$. Similarly, polar of $Y$ w.r.t. $\Omega$ is $\overline{BE}$ and polar of $Z$ w.r.t. $\Omega$ is $\overline{CF}$. Since $\overline{AD},\overline{BE},\overline{CF}$ concurrent, $X,Y,Z$ are collinear.