Difference between revisions of "2019 AIME II Problems/Problem 15"

Revision as of 19:15, 22 March 2019

Problem

In acute triangle $ABC$ points $P$ and $Q$ are the feet of the perpendiculars from $C$ to $\overline{AB}$ and from $B$ to $\overline{AC}$ , respectively. Line $PQ$ intersects the circumcircle of $\triangle ABC$ in two distinct points, $X$ and $Y$ . Suppose $XP=10$ , $PQ=25$ , and $QY=15$ . The value of $AB\cdot AC$ can be written in the form $m\sqrt n$ where $m$ and $n$ are positive relatively prime integers. Find $m+n$ .

Solution

Let $AP=a, AQ=b, cos\angle A = k$

Therefore $AB= \frac{b}{k} , AC= \frac{a}{k}$

By power of point, we have $AP*BP=XP*YP , AQ*CQ=YQ*XQ$ Which are simplified to $400= \frac{ab}{k} - a^2$ $525= \frac{ab}{k} - b^2$ Or $a^2= \frac{ab}{k} - 400$ $b^2= \frac{ab}{k} - 525$ (1)

Or $k= \frac{ab}{a^2+400} = \frac{ab}{b^2+525}$

Let $u=a^2+400=b^2+525$ Then, $a=\sqrt{u-400},b=\sqrt{u-525},k=\frac{\sqrt{(u-400)(u-525)}}{u}$

In triangle $APQ$ , by law of cosine

$25^2= a^2 + b^2 - 2abk$

Pluging (1)

$625= \frac{ab}{k} - 400 + \frac{ab}{k} - 525 -2abk$

Or

$\frac{ab}{k} - abk =775$

Substitute everything by $u$

$u- \frac{(u-400)(u-525)}{u} =775$

The quadratic term is cancelled out after simplified

Which gives $u=1400$

Plug back in, $a= \sqrt{1000} , b=\sqrt{775}$

Then

$AB*AC= \frac{a}{k} \frac{b}{k} = \frac{ab}{\frac{ab}{u} *\frac{ab}{u} } = \frac{u^2}{ab} = \frac{1400 * 1400}{ \sqrt{ 1000* 875 }} = 560 \sqrt{14}$

So the final answer is 560 + 14 = 574

By SpecialBeing2017

@@ Line 5: / Line 5: @@
 Let <math>AP=a, AQ=b, cos\angle A = k</math>
-Therefore <math>AB= \frac{b}{k} , AC= \frac{a}{k}
+Therefore <math>AB= \frac{b}{k} , AC= \frac{a}{k}</math>
 By power of point, we have
-</math>AP*BP=XP*YP , AQ*CQ=YQ*XQ<math>
+<math>AP*BP=XP*YP , AQ*CQ=YQ*XQ</math>
 Which are simplified to
-</math>400= \frac{ab}{k} - a^2<math>
+<math>400= \frac{ab}{k} - a^2</math>
-</math>525= \frac{ab}{k} - b^2<math>
+<math>525= \frac{ab}{k} - b^2</math>
 Or
-</math>a^2= \frac{ab}{k} - 400<math>
+<math>a^2= \frac{ab}{k} - 400</math>
-</math>b^2= \frac{ab}{k} - 525<math>
+<math>b^2= \frac{ab}{k} - 525</math>
 (1)
 Or
-</math>k= \frac{ab}{a^2+400} = \frac{ab}{b^2+525}
+<math>k= \frac{ab}{a^2+400} = \frac{ab}{b^2+525}</math>
 Let <math>u=a^2+400=b^2+525</math>
-Then, <math>a=\sqrt{u-400},b=\sqrt{u-525},k=\frac{\sqrt{(u-400)(u-525)}}{u}
+Then, <math>a=\sqrt{u-400},b=\sqrt{u-525},k=\frac{\sqrt{(u-400)(u-525)}}{u} </math>
-In triangle </math>APQ<math>, by law of cosine
+In triangle <math>APQ</math>, by law of cosine
-</math>25^2= a^2 + b^2 - 2abk<math>
+<math>25^2= a^2 + b^2 - 2abk</math>
 Pluging (1)
-</math>625=  \frac{ab}{k} - 400 + \frac{ab}{k} - 525 -2abk<math>
+<math>625=  \frac{ab}{k} - 400 + \frac{ab}{k} - 525 -2abk</math>
 Or
-</math> \frac{ab}{k} - abk =775<math>
+<math> \frac{ab}{k} - abk =775</math>
-Substitute everything by </math>u<math>
+Substitute everything by <math>u</math>
-</math>u- \frac{(u-400)(u-525)}{u} =775<math>
+<math>u- \frac{(u-400)(u-525)}{u} =775</math>
 The quadratic term is cancelled out after simplified
-Which gives </math>u=1400<math>
+Which gives <math>u=1400</math>
-Plug back in, </math>a= \sqrt{1000} , b=\sqrt{775}<math>
+Plug back in, <math>a= \sqrt{1000} , b=\sqrt{775}</math>
 Then
-</math>AB*AC= \frac{a}{k} \frac{b}{k} = \frac{ab}{\frac{ab}{u} *\frac{ab}{u} } = \frac{u^2}{ab}
+<math>AB*AC= \frac{a}{k} \frac{b}{k} = \frac{ab}{\frac{ab}{u} *\frac{ab}{u} } = \frac{u^2}{ab}
-= \frac{1400 * 1400}{ \sqrt{ 1000* 875 }} = 560 \sqrt{14}
+= \frac{1400 * 1400}{ \sqrt{ 1000* 875 }} = 560 \sqrt{14}</math>
 So the final answer is 560 + 14 = 574
+By SpecialBeing2017
 ==See Also==
 {{AIME box|year=2019|n=II|num-b=14|after=Last Question}}
 {{MAA Notice}}

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Difference between revisions of "2019 AIME II Problems/Problem 15"

Revision as of 19:15, 22 March 2019

Problem

Solution

See Also