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k a April Highlights and 2025 AoPS Online Class Information
jlacosta   0
Wednesday at 3:18 PM
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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[list][*]April 3rd (Webinar), 4pm PT/7:00pm ET, Learning with AoPS: Perspectives from a Parent, Math Camp Instructor, and University Professor
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[*]April 22nd (Webinar), 4:00pm PT/7:00pm ET, Competitive Programming at AoPS (USACO).[/list]
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0 replies
jlacosta
Wednesday at 3:18 PM
0 replies
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An inequality on triangles sides
nAalniaOMliO   7
N 15 minutes ago by navier3072
Source: Belarusian National Olympiad 2025
Numbers $a,b,c$ are lengths of sides of some triangle. Prove the inequality$$\frac{a}{b+c-a}+\frac{b}{c+a-b}+\frac{c}{a+b-c} \geq \frac{a+b}{2c}+\frac{b+c}{2a}+\frac{c+a}{2b}$$
7 replies
nAalniaOMliO
Mar 28, 2025
navier3072
15 minutes ago
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D is incenter
Layaliya   3
N 15 minutes ago by rong2020
Source: From my friend in Indonesia
Given an acute triangle \( ABC \) where \( AB > AC \). Point \( O \) is the circumcenter of triangle \( ABC \), and \( P \) is the projection of point \( A \) onto line \( BC \). The midpoints of \( BC \), \( CA \), and \( AB \) are \( D \), \( E \), and \( F \), respectively. The line \( AO \) intersects \( DE \) and \( DF \) at points \( Q \) and \( R \), respectively. Prove that \( D \) is the incenter of triangle \( PQR \).
3 replies
Layaliya
Yesterday at 11:03 AM
rong2020
15 minutes ago
J
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Constructing sequences
SMOJ   6
N 34 minutes ago by lightsynth123
Source: 2018 Singapore Mathematical Olympiad Senior Q5
Starting with any $n$-tuple $R_0$, $n\ge 1$, of symbols from $A,B,C$, we define a sequence $R_0, R_1, R_2,\ldots,$ according to the following rule: If $R_j= (x_1,x_2,\ldots,x_n)$, then $R_{j+1}= (y_1,y_2,\ldots,y_n)$, where $y_i=x_i$ if $x_i=x_{i+1}$ (taking $x_{n+1}=x_1$) and $y_i$ is the symbol other than $x_i, x_{i+1}$ if $x_i\neq x_{i+1}$. Find all positive integers $n>1$ for which there exists some integer $m>0$ such that $R_m=R_0$.
6 replies
SMOJ
Mar 31, 2020
lightsynth123
34 minutes ago
J
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Orthocenter is the midpoint of the altitude
plagueis   6
N 40 minutes ago by FrancoGiosefAG
Source: Mexican Quarantine Mathematical Olympiad P4
Let $ABC$ be an acute triangle with orthocenter $H$. Let $A_1$, $B_1$ and $C_1$ be the feet of the altitudes of triangle $ABC$ opposite to vertices $A$, $B$, and $C$ respectively. Let $B_2$ and $C_2$ be the midpoints of $BB_1$ and $CC_1$, respectively. Let $O$ be the intersection of lines $BC_2$ and $CB_2$. Prove that $O$ is the circumcenter of triangle $ABC$ if and only if $H$ is the midpoint of $AA_1$.

Proposed by Dorlir Ahmeti
6 replies
plagueis
Apr 26, 2020
FrancoGiosefAG
40 minutes ago
J
No more topics!
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J
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cut a rectangle into 9 rectangles
parmenides51   1
N May 20, 2022 by NightFury101
Source: Champions Tournament (Ukraine) - Турнір чемпіонів - 2000 Juniors p2
Is it possible to cut a rectangle into $9$ rectangles so that no two adjacent rectangles form a rectangle together? The figure shows how you can cut a rectangle into five parts in this way.
IMAGE
1 reply
parmenides51
May 20, 2022
NightFury101
May 20, 2022
J
cut a rectangle into 9 rectangles
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Reveal topic tags
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Source: Champions Tournament (Ukraine) - Турнір чемпіонів - 2000 Juniors p2
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parmenides51
30629 posts
parmenides51
#1 May 20, 2022, 9:31 PM
Y by
Is it possible to cut a rectangle into $9$ rectangles so that no two adjacent rectangles form a rectangle together? The figure shows how you can cut a rectangle into five parts in this way.
https://cdn.artofproblemsolving.com/attachments/c/7/963041a2a69e4d61b30c6e97897a58d030d948.png
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NightFury101
1096 posts
NightFury101
#2 May 20, 2022, 9:52 PM
Y by
It is possible to cut one rectangle into four rectangles. Does it count if one of the five rectangles in the diagram is cut this way?
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