Difference between revisions of "2005 AIME II Problems/Problem 12"

Revision as of 19:26, 26 July 2007

Problem

Square $\displaystyle ABCD$ has center $O,\ AB=900,\ E$ and $F$ are on $AB$ with $AE<BF$ and $E$ between $A$ and $F, m\angle EOF =45^\circ,$ and $EF=400.$ Given that $BF=p+q\sqrt{r},$ where $p,q,$ and $r$ are positive integers and $r$ is not divisible by the square of any prime, find $p+q+r.$

Solution

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

Draw the perpendicular from $AB \perp OP$ , with the intersection at $G$ . Denote $x = EG$ and $y = FG$ , and $x > y$ (since $AE < BF$ and $AG = BG$ ). The tangent of $\displaystyle \angle EOG = \frac{x}{450}$ , and of $\tan \angle FOG = \frac{y}{450}$ .

By the tangent addition rule $\left( \tan (a + b) = \frac{\tan a + \tan b}{1 - \tan a \tan b} \right)$ , we see that $\tan 45 = \tan (EOG + FOG) = \frac{\frac{x}{450} + \frac{y}{450}}{1 - \frac{x}{450} \frac{y}{450}}$ . Since $\displaystyle \tan 45 = 1$ , $1 - \frac{xy}{450^2} = \frac{x + y}{450}$ . We know that $x + y = 400 \displaystyle$ , so we can substitute this to find that $1 - \frac{xy}{450^2} = \frac 89 \Longrightarrow xy = 150^2$ .

A second equation can be set up using $x + y = 400 \displaystyle$ . To solve for $y$ , $x = 400 - y \Longrightarrow (400 - y)y = 150^2$ . This is a quadratic with roots $200 \pm 50\sqrt{7}$ . Since $y < x$ , use the smaller root, $200 - 50\sqrt{7}$ .

Now, $BF = BG - FG = 450 - (200 - 50\sqrt{7}) = 250 + 50\sqrt{7}$ . The answer is $250 + 50 + 7 = 307$ .

Solution 2

Label $BF=x$ , so $EA =$ $500 - x$ . Rotate $\triangle{OEF}$ about $O$ until $EF$ lies on $BC$ . Now we know that $\angle{EOF}=45^\circ$ therefore $\angle BOE+\angle AOE=45^\circ$ also since $O$ is the center of the square. Label the new triangle that we created $\triangle OGJ$ . Now we know that rotation preserves angles and side lengths, so $BG=500-x$ and $JC=x$ . Draw $GF$ and $OB$ . Notice that $\angle BOG =\angle OAE$ since rotations preserve the same angles so $\angle{FOG}=45^\circ$ too and by SAS we know that $\triangle FOE\cong \triangle FOG$ so $\displaystyle FG=400$ . Now we have a right $\triangle BFG$ with legs $x$ and $500-x$ and hypotenuse 400. Then by the Pythagorean Theorem],

$\displaystyle(500-x)^2+x^2=400^2$

$250000-1000x+2x^2=16000$

$\displaystyle 90000-1000x+2x^2=0$

and applying the quadratic formula we get that $x=250\pm 50\sqrt{7}$ . We take the positive sign because (WHY?) and so our answer is $\displaystyle p+q+r = 250 + 50 + 7 = 307$ .

@@ Line 13: / Line 13: @@
 == Solution 2 ==
-Label <math>BF=x</math>, so <math>EA=500-x</math>. Rotate <math>\triangle{OEF}</math> about O until EF lies on BC. Now we know that <math>\angle{EOF}=45^\circ</math> therefore <math>\angle{BOE}+\angle{AOE}=45^\circ</math> also since <math>O</math> is the center of the square.  Label the new triangle that we created <math>\triangle{OGJ}</math>.  Now we know that rotation preserves angles and side lengths, so <math>BG=500-x</math> and <math>JC=x</math>.  Draw <math>GF</math> and <math>OB</math>. Notice that <math>\angle{BOG} =\angle{OAE}</math> since rotations preserve the same angles so
+Label <math>BF=x</math>, so <math>EA =</math> <math>500 - x</math>. Rotate <math>\triangle{OEF}</math> about <math>O</math> until <math>EF</math> lies on <math>BC</math>. Now we know that <math>\angle{EOF}=45^\circ</math> therefore <math>\angle BOE+\angle AOE=45^\circ</math> also since <math>O</math> is the center of the square.  Label the new triangle that we created <math>\triangle OGJ</math>.  Now we know that rotation preserves angles and side lengths, so <math>BG=500-x</math> and <math>JC=x</math>.  Draw <math>GF</math> and <math>OB</math>. Notice that <math>\angle BOG =\angle OAE</math> since rotations preserve the same angles so
-<math>\angle{FOG}=45^\circ</math> too and by SAS we know that <math>\triangle{FOE}\isom \triangle{FOG}</math> so <math>FG=400</math>. Now we have a right <math>\triangle{BFG}</math> with legs <math>x</math> and <math>500-x</math> and hypotenuse 400. Then by the [[Pythagorean Theorem]]],
+<math>\angle{FOG}=45^\circ</math> too and by SAS we know that <math>\triangle FOE\cong \triangle FOG</math> so <math>\displaystyle FG=400</math>. Now we have a right <math>\triangle BFG</math> with legs <math>x</math> and <math>500-x</math> and hypotenuse 400. Then by the [[Pythagorean Theorem]]],
 <math>\displaystyle(500-x)^2+x^2=400^2</math>
@@ Line 24: / Line 24: @@
 and applying the [[quadratic formula]] we get that
-<math>x=250\pm 50\sqrt{7}</math>.  We take the positive sign because (WHY?) and so our answer is <math>p+q+r  = 250 + 50 + 7 = 307</math>.
+<math>x=250\pm 50\sqrt{7}</math>.  We take the positive sign because (WHY?) and so our answer is <math>\displaystyle p+q+r = 250 + 50 + 7 = 307</math>.
 == See also ==

2005 AIME II (Problems • Answer Key • Resources)
Preceded by Problem 11	Followed by Problem 13
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15
All AIME Problems and Solutions

Page

Toolbox

Search

Difference between revisions of "2005 AIME II Problems/Problem 12"

Revision as of 19:26, 26 July 2007

Contents

Problem

Solution

Solution 2

See also