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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.

WOOT early bird pricing is in effect, don’t miss out! If you took MathWOOT Level 2 last year, no worries, it is all new problems this year! Our Worldwide Online Olympiad Training program is for high school level competitors. AoPS designed these courses to help our top students get the deep focus they need to succeed in their specific competition goals. Check out the details at this link for all our WOOT programs in math, computer science, chemistry, and physics.

Looking for summer camps in math and language arts? Be sure to check out the video-based summer camps offered at the Virtual Campus that are 2- to 4-weeks in duration. There are middle and high school competition math camps as well as Math Beasts camps that review key topics coupled with fun explorations covering areas such as graph theory (Math Beasts Camp 6), cryptography (Math Beasts Camp 7-8), and topology (Math Beasts Camp 8-9)!

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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 9th (Webinar), 4:00pm PT/7:00pm ET, Learn about Video-based Summer Camps at the Virtual Campus
[*]April 10th (Math Jam), 4:30pm PT/7:30pm ET, 2025 MathILy and MathILy-Er Math Jam: Multibackwards Numbers
[*]April 22nd (Webinar), 4:00pm PT/7:00pm ET, Competitive Programming at AoPS (USACO).[/list]
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0 replies
jlacosta
Apr 2, 2025
0 replies
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Concurrence in Cyclic Quadrilateral
GrantStar   38
N 41 minutes ago by wu2481632
Source: IMO Shortlist 2023 G3
Let $ABCD$ be a cyclic quadrilateral with $\angle BAD < \angle ADC$. Let $M$ be the midpoint of the arc $CD$ not containing $A$. Suppose there is a point $P$ inside $ABCD$ such that $\angle ADB = \angle CPD$ and $\angle ADP = \angle PCB$.

Prove that lines $AD, PM$, and $BC$ are concurrent.
38 replies
GrantStar
Jul 17, 2024
wu2481632
41 minutes ago
J
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IMO Shortlist 2014 C9
hajimbrak   13
N 43 minutes ago by One_piece_fan
There are $n$ circles drawn on a piece of paper in such a way that any two circles intersect in two points, and no three circles pass through the same point. Turbo the snail slides along the circles in the following fashion. Initially he moves on one of the circles in clockwise direction. Turbo always keeps sliding along the current circle until he reaches an intersection with another circle. Then he continues his journey on this new circle and also changes the direction of moving, i.e. from clockwise to anticlockwise or $\textit{vice versa}$.
Suppose that Turbo’s path entirely covers all circles. Prove that $n$ must be odd.

Proposed by Tejaswi Navilarekallu, India
13 replies
hajimbrak
Jul 11, 2015
One_piece_fan
43 minutes ago
J
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minimal number of questions necessary to find all numbers
orl   14
N an hour ago by bin_sherlo
Source: ARO 2005 - problem 10.3 / 11.2
Given 2005 distinct numbers $a_1,\,a_2,\dots,a_{2005}$. By one question, we may take three different indices $1\le i<j<k\le 2005$ and find out the set of numbers $\{a_i,\,a_j,\,a_k\}$ (unordered, of course). Find the minimal number of questions, which are necessary to find out all numbers $a_i$.
14 replies
orl
Apr 30, 2005
bin_sherlo
an hour ago
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P17 [Geometry] - Turkish NMO 1st Round - 2013
matematikolimpiyati   3
N an hour ago by Razorrizelim
Let $ABC$ be an equilateral triangle with side length $10$ and $P$ be a point inside the triangle such that $|PA|^2+ |PB|^2 + |PC|^2 = 128$. What is the area of a triangle with side lengths $|PA|,|PB|,|PC|$?

$ \textbf{(A)}\ 6\sqrt 3 \qquad\textbf{(B)}\ 7 \sqrt 3 \qquad\textbf{(C)}\ 8 \sqrt 3 \qquad\textbf{(D)}\ 9 \sqrt 3 \qquad\textbf{(E)}\ 10 \sqrt 3 $
3 replies
matematikolimpiyati
Apr 16, 2013
Razorrizelim
an hour ago
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n white, n red and 1 black points around a circle
parmenides51   0
May 21, 2022
Source: 2018 1st Kharkiv Masters Tournament VIII-IX 3.7 , X-XI 3.7
There are $2n + 1$ points in a circle: $n$ white, $n$ red and one black. Prove that $2n$ of these points can be connected by $n$ segments so that they do not intersect and none of the segments connects the white and red points.
0 replies
parmenides51
May 21, 2022
0 replies
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n white, n red and 1 black points around a circle
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Reveal topic tags
combinatorics
combinatorial geometry
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Kharkiv Masters
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Source: 2018 1st Kharkiv Masters Tournament VIII-IX 3.7 , X-XI 3.7
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parmenides51
30629 posts
parmenides51
#1 May 21, 2022, 6:29 PM
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There are $2n + 1$ points in a circle: $n$ white, $n$ red and one black. Prove that $2n$ of these points can be connected by $n$ segments so that they do not intersect and none of the segments connects the white and red points.
This post has been edited 1 time. Last edited by parmenides51, May 21, 2022, 7:00 PM
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