2006 IMO Shortlist Problems/G2

Problem

(Ukraine) Let $\displaystyle ABCD$ be a trapezoid with parallel sides ${} \displaystyle AB >CD$ . Points $\displaystyle K$ and $\displaystyle L$ lie on the line segments $\displaystyle AB$ and $\displaystyle CD$ , respectively, so that ${} \displaystyle AK/KB = DL/LC$ . Suppose that there are points $\displaystyle P$ and $\displaystyle Q$ on the line segment $\displaystyle KL$ satisfying

$\angle APB = \angle BCD$ and $\angle CQD = \angle ABC$ .

Prove that the points $\displaystyle P$ , $\displaystyle Q$ , $\displaystyle B$ , and ${} \displaystyle C$ are concyclic.

Solution

Since ${} \displaystyle A,B,K$ and $\displaystyle D,C,L$ are collinear, the condition ${} \displaystyle AK/KB = DL/LC$ is equivalent to the condition that lines $\displaystyle AD$ , $\displaystyle KL$ , and $\displaystyle BC$ are concurrent. Let $\displaystyle X$ be the point of concurrence.

Let $\displaystyle \omega_1, \omega_2$ be the circumcircles of $\displaystyle APB, DQC$ , respectively. Since $\angle XBA = \angle BCD = \angle APB$ , the line $\displaystyle XB$ is tangent to $\displaystyle \omega_1$ at $\displaystyle B$ . Similarly, $\displaystyle \omega_2$ is tangent to $\displaystyle XB$ at ${} \displaystyle C$ . It follows there is a dilation $\displaystyle \gamma$ centered at $\displaystyle X$ which takes $\displaystyle \omega_2$ to $\displaystyle \omega_1$ . Let $\displaystyle Q'$ denote the image of $\displaystyle Q$ under $\displaystyle \gamma$ . Evidently, $\displaystyle A, B$ are the respective images of ${} \displaystyle D,C$ under $\displaystyle \gamma$ .