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k a April Highlights and 2025 AoPS Online Class Information
jlacosta   0
Apr 2, 2025
Spring is in full swing and summer is right around the corner, what are your plans? At AoPS Online our schedule has new classes starting now through July, so be sure to keep your skills sharp and be prepared for the Fall school year! Check out the schedule of upcoming classes below.

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0 replies
jlacosta
Apr 2, 2025
0 replies
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Tangents and chord
iv999xyz   1
N 23 minutes ago by aidenkim119
Given a circle with chord AB. k and l are tangents to the circle at points A and B. C and E are in different half-planes with respect to AB and lie on k, and F and D are in different half-planes with respect to AB and lie on l. Furthermore, C and F are in the same half-plane with respect to AB and AC = BD; AE = BF. CD intersects the circle at P and R and EF intersects the circle at Q and S. P and Q are in the same half-plane with respect to AB and in different half-plane with R and S. Prove that PQRS is a parallelogram if and only if AB, CD, and EF intersect at one point.
1 reply
iv999xyz
Today at 9:41 AM
aidenkim119
23 minutes ago
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Number Theory Chain!
JetFire008   31
N 34 minutes ago by aidenkim119
I will post a question and someone has to answer it. Then they have to post a question and someone else will answer it and so on. We can only post questions related to Number Theory and each problem should be more difficult than the previous. Let's start!

Question 1
31 replies
JetFire008
Apr 7, 2025
aidenkim119
34 minutes ago
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Find the area enclosed by the curve |z|^2 + |z^2 - 2i| = 16
mqoi_KOLA   2
N an hour ago by mqoi_KOLA
Find the area of the Argand plane enclosed by the curve $$ |z|^2 + |z^2 - 2i| = 16.$$(ans- $3 \sqrt7 \pi$)
2 replies
mqoi_KOLA
5 hours ago
mqoi_KOLA
an hour ago
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TST Junior Romania 2025
ant_   1
N an hour ago by wassupevery1
Source: ssmr
Consider the isosceles triangle $ABC$, with $\angle BAC > 90^\circ$, and the circle $\omega$ with center $A$ and radius $AC$. Denote by $M$ the midpoint of side $AC$. The line $BM$ intersects the circle $\omega$ for the second time in $D$. Let $E$ be a point on the circle $\omega$ such that $BE \perp AC$ and $DE \cap AC = {N}$. Show that $AN = 2AB$.
1 reply
ant_
Yesterday at 5:01 PM
wassupevery1
an hour ago
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No more topics!
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Prove that chords are equal
lambruscokid   3
N Jan 24, 2013 by JRD
Source: Argentina IMO TST 2006 problem 3
In a circumference with center $ O$ we draw two equal chord $ AB=CD$ and if $ AB \cap CD =L$ then $ AL>BL$ and $ DL>CL$
We consider $ M \in AL$ and $ N \in DL$ such that $ \widehat {ALC} =2 \widehat {MON}$
Prove that the chord determined by extending $ MN$ has the same as length as both $ AB$ and $ CD$
3 replies
lambruscokid
Aug 27, 2009
JRD
Jan 24, 2013
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Prove that chords are equal
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Reveal topic tags
geometry
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angle bisector
geometry unsolved
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Source: Argentina IMO TST 2006 problem 3
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lambruscokid
264 posts
lambruscokid
#1 Aug 27, 2009, 7:50 PM • 3 Y
Y by Adventure10, Mango247, Mango247
In a circumference with center $ O$ we draw two equal chord $ AB=CD$ and if $ AB \cap CD =L$ then $ AL>BL$ and $ DL>CL$
We consider $ M \in AL$ and $ N \in DL$ such that $ \widehat {ALC} =2 \widehat {MON}$
Prove that the chord determined by extending $ MN$ has the same as length as both $ AB$ and $ CD$
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saif
54 posts
saif
#2 Aug 27, 2009, 8:44 PM • 1 Y
Y by Adventure10
if possible can you draw it to see clearly the exercise
thank you very much. :)
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ShahinBJK
113 posts
ShahinBJK
#3 Feb 28, 2011, 5:01 PM • 2 Y
Y by Adventure10, Mango247
Let $OM$ and $ON$ cut line segment $BC$ at $E$ and $F$ respectively.And let $P$ and $Q$ be projections of $O$ to $AB$ and $CD$ respectively.$AB=CD$ and $ABCD$-cyclic implies that $ABCD$ is isosceles trapezoid.$BL=CL \implies AL=DL \implies \angle BAD=\angle CDA = \angle DCB = \angle ABC$. $OP \perp AB$ and $OQ \perp CD$ implies that $AP=PB$ and $QD=QC;AL=DL$ implies that $PL=QL \implies \angle LPQ = \angle LQP= \angle ABC$ which implies that $BC || PQ ;OL \perp PQ \implies \angle MOP= \angle NOL$ and $OL \perp BC \implies \angle DCB = \angle NOE \implies CENO$-cyclic and similarly we get that $BFMO$ is cyclic and from $OB=OC$ we get that $\angle OBC= \angle OCB \implies \angle OCN =\angle OBM=\angle OEN=\angle OFM$ which implies that $MEFN$ is cyclic $\implies \angle OFE=\angle OMN$ and $\angle MOP=\angle NOL$ implies that $\angle OFE=\angle OMP \implies \angle OMP=\angle OMN \implies \angle OMX= \angle OMB$ if $MN$ cuts circle at $X$ and $Y$. Let angle bisector of $\angle BOX$ cut $XM$ at $K$ and let $WLOG$ $K$ lies between
$X$ and $M \implies \angle OMX+\angle KOM =\angle OKX=\angle OKB$
$\implies \angle OKB >\angle OMX=\angle OMB$ which is contradiction thus we get that $M=K \implies MB=MX \implies AXBY$ is isosceles trapezoid which implies that $XY=AB$.
_____________________________________________________
by Elshad Mustafayev[Sumgayit]
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JRD
38 posts
JRD
#4 Jan 24, 2013, 5:27 PM • 2 Y
Y by Adventure10, Mango247
It's enough to prove that $O$ is center of the excircle of $LMN$ and this is obvious because $2MON=ALC$ and $DLO=OLA$
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