Difference between revisions of "2001 IMO Problems/Problem 5"

Revision as of 01:57, 3 October 2018

Problem

$ABC$ is a triangle. $X$ lies on $BC$ and $AX$ bisects angle $A$ . $Y$ lies on $CA$ and $BY$ bisects angle $B$ . Angle $A$ is $60^{\circ}$ . $AB + BX = AY + YB$ . Find all possible values for angle $B$ .

Solution

$[asy] import cse5; import graph; import olympiad; dotfactor = 3; unitsize(1.5inch); pair A = (0,sqrt(3)), D= (-1, 0), E=(1,0); pair Bb = rotate(40,E)*A; pair B = extension(A,D,E,Bb); pair H = foot(A,D,E); pair X = extension(A,H,B,E); pair Yy = bisectorpoint(A,B,E); pair Y =extension(A,E,B,Yy); pair C = E - (0,0.1); dot("$B$", B, NW); dot("$Y$", Y, NE); dot("$D$", D, W); dot("$E$", E, E); dot("$A$",A,N); dot("$X$",X,S); label("$C$",E+(0,-0.1),E); draw(A--D--E--cycle); draw(B--Y); draw(B--E); // draw(B--Xx--E,dashed); // draw(Y--Xx, dashed); draw(A--X--D, dashed); [/asy]$

Let $D$ be on extension of $AB$ and $BD=BX$ . Let $E$ be on $YC$ and $YE=YB$ , then $AD=AB+BD=AB+BX=AY+YB=AE$ Since $A=60$ , $\triangle{ADE}$ is equilateral. Let $\angle{ABY}=x$ , then, $\angle{YBX}=\angle{BDX}=\angle{BXD}=\angle{YEX}=x$ We claim that $X$ must be on $BE$ , i.e., $C=E$ . If $X$ is not on $BE$ , then $\angle{EBX}=\angle{YBX}-\angle{YBE}=\angle{YEX}-\angle{YEB}=\angle{BEX}$ , which leads to $BX=EX=DX$ , and $\triangle{BDX}$ is equilateral, which is not possible. With that, we have, in $\triangle{ABE}$ , $60+2x+x=180$ , $x=40$ , and $\angle{ABE}=80$ .

Solution by $Mathdummy$ .

Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.

2001 IMO (Problems) • Resources
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Difference between revisions of "2001 IMO Problems/Problem 5"

Revision as of 01:57, 3 October 2018

Problem

Solution

See also

@@ Line 1: / Line 1: @@
 ==Problem==
-ABC is a triangle. X lies on BC and AX bisects angle A. Y lies on CA and BY bisects angle B. Angle A is 60o. AB + BX = AY + YB. Find all possible values for angle B.
+<math>ABC</math> is a [[triangle]]. <math>X</math> lies on <math>BC</math> and <math>AX</math> bisects [[angle]] <math>A</math>. <math>Y</math> lies on <math>CA</math> and <math>BY</math> bisects angle <math>B</math>. Angle <math>A</math> is <math>60^{\circ}</math>. <math>AB + BX = AY + YB</math>. Find all possible values for angle <math>B</math>.
 ==Solution==
-{{solution}}
+<center><asy>
+import cse5;
+import graph;
+import olympiad;
+dotfactor = 3;
+unitsize(1.5inch);
+pair A = (0,sqrt(3)), D= (-1, 0), E=(1,0);
+pair Bb = rotate(40,E)*A;
+pair B = extension(A,D,E,Bb);
+pair H = foot(A,D,E);
+pair X = extension(A,H,B,E);
+pair Yy = bisectorpoint(A,B,E);
+pair Y =extension(A,E,B,Yy);
+pair C = E - (0,0.1);
+dot("$B$", B, NW); dot("$Y$", Y, NE);
+dot("$D$", D, W); dot("$E$", E, E);
+dot("$A$",A,N); dot("$X$",X,S);
+label("$C$",E+(0,-0.1),E);
+draw(A--D--E--cycle);
+draw(B--Y);
+draw(B--E);
+// draw(B--Xx--E,dashed);
+// draw(Y--Xx, dashed);
+draw(A--X--D, dashed);
+</asy></center>
+Let <math>D</math> be on extension of <math>AB</math> and <math>BD=BX</math>. Let <math>E</math> be on <math>YC</math> and <math>YE=YB</math>, then <cmath>AD=AB+BD=AB+BX=AY+YB=AE</cmath>
+Since <math>A=60</math>, <math>\triangle{ADE}</math> is equilateral. Let <math>\angle{ABY}=x</math>, then, <cmath>\angle{YBX}=\angle{BDX}=\angle{BXD}=\angle{YEX}=x</cmath>
+We claim that <math>X</math> must be on <math>BE</math>, i.e., <math>C=E</math>. If <math>X</math> is not on <math>BE</math>, then <math>\angle{EBX}=\angle{YBX}-\angle{YBE}=\angle{YEX}-\angle{YEB}=\angle{BEX}</math>, which leads to <math>BX=EX=DX</math>, and <math>\triangle{BDX}</math> is equilateral, which is not possible.
+With that, we have, in <math>\triangle{ABE}</math>, <math>60+2x+x=180</math>, <math>x=40</math>, and <math>\angle{ABE}=80</math>.
+Solution by <math>Mathdummy</math>.
+{{alternate solutions}}
 ==See also==
+{{IMO box|num-b=4|num-a=6|year=2001}}
 [[Category:Olympiad Geometry Problems]]