Difference between revisions of "2019 USAJMO Problems/Problem 3"

Revision as of 11:35, 25 June 2019

Problem

$(*)$ Let $ABCD$ be a cyclic quadrilateral satisfying $AD^2+BC^2=AB^2$ . The diagonals of $ABCD$ intersect at $E$ . Let $P$ be a point on side $\overline{AB}$ satisfying $\angle APD=\angle BPC$ . Show that line $PE$ bisects $\overline{CD}$ .

Solution

Let $PE \cap DC = M$ . Also, let $N$ be the midpoint of $AB$ .

Note that only one point $P$ satisfies the given angle condition. With this in mind, construct $P'$ with the following properties:

1) $AP' \cdot AB = AD^2$ 2) $BP' \cdot AB = CD^2$

Claim: $P = P'$

Proof:

The conditions imply the similarities $ADP \sim ABD$ and $BCP \sim BAC$ whence $\measuredangle APD = \measuredangle BDA = \measuredangle BCA = \measuredangle CPB$ as desired. $\square$

Claim: $PE$ is a symmedian in $AEB$

Proof:

We have

$AP \cdot AB = AD^2 \iff AB^2 \cdot AP = AD^2 \cdot AB$ $\iff \left( \frac{AB}{AD} \right)^2 = \frac{AB}{AP}$ $\iff \left( \frac{AB}{AD} \right)^2 - 1 = \frac{AB}{AP} - 1$ $\iff \frac{AB^2 - AD^2}{AD^2} = \frac{BP}{AP}$ $\iff \left(\frac{BC}{AD} \right)^2 = \left(\frac{BE}{AE} \right)^2 = \frac{BP}{AP}$

as desired. $\square$

Since $P$ is the isogonal conjugate of $N$ , $\measuredangle PEA = \measuredangle MEC = \measuredangle BEN$ . However $\measuredangle MEC = \measuredangle BEN$ implies that $M$ is the midpoint of $CD$ from similar triangles, so we are done. $\square$

The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.

@@ Line 7: / Line 7: @@
 Note that only one point <math>P</math> satisfies the given angle condition. With this in mind, construct <math>P'</math> with the following properties:
-<math>\dot </math>AP' \cdot AB = AD^2<math>
+) <math>AP' \cdot AB = AD^2</math>
-</math>\dot BP' \cdot AB = CD^2<math>
+) <math>BP' \cdot AB = CD^2</math>
-Claim:</math>P = P'<math>
+Claim:<math>P = P'</math>
 Proof:
-The conditions imply the similarities </math>ADP \sim ABD<math> and </math>BCP \sim BAC<math> whence </math>\measuredangle APD = \measuredangle BDA = \measuredangle BCA = \measuredangle CPB<math> as desired. </math>\square<math>
+The conditions imply the similarities <math>ADP \sim ABD</math> and <math>BCP \sim BAC</math> whence <math>\measuredangle APD = \measuredangle BDA = \measuredangle BCA = \measuredangle CPB</math> as desired. <math>\square</math>
-Claim: </math>PE<math> is a symmedian in </math>AEB<math>
+Claim: <math>PE</math> is a symmedian in <math>AEB</math>
 Proof:
@@ Line 29: / Line 29: @@
 <cmath>\iff \left(\frac{BC}{AD} \right)^2 = \left(\frac{BE}{AE} \right)^2 = \frac{BP}{AP} </cmath>
-as desired. </math>\square<math>
+as desired. <math>\square</math>
-Since </math>P<math> is the isogonal conjugate of </math>N<math>, </math>\measuredangle PEA = \measuredangle MEC = \measuredangle BEN<math>. However </math>\measuredangle MEC = \measuredangle BEN<math> implies that </math>M<math> is the midpoint of </math>CD<math> from similar triangles, so we are done. </math>\square$
+Since <math>P</math> is the isogonal conjugate of <math>N</math>, <math>\measuredangle PEA = \measuredangle MEC = \measuredangle BEN</math>. However <math>\measuredangle MEC = \measuredangle BEN</math> implies that <math>M</math> is the midpoint of <math>CD</math> from similar triangles, so we are done. <math>\square</math>
 {{MAA Notice}}

2019 USAJMO (Problems • Resources)
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Difference between revisions of "2019 USAJMO Problems/Problem 3"

Revision as of 11:35, 25 June 2019

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