Found problems: 85335
2016 IMO Shortlist, A4
Find all functions $f:(0,\infty)\rightarrow (0,\infty)$ such that for any $x,y\in (0,\infty)$, $$xf(x^2)f(f(y)) + f(yf(x)) = f(xy) \left(f(f(x^2)) + f(f(y^2))\right).$$
2018 Costa Rica - Final Round, 1
There are $10$ points on a circle and all possible segments are drawn on the which two of these points are the endpoints. Determine the probability that selecting two segments randomly, they intersect at some point (it could be on the circumference).
2008 China Team Selection Test, 1
Let $ P$ be the the isogonal conjugate of $ Q$ with respect to triangle $ ABC$, and $ P,Q$ are in the interior of triangle $ ABC$. Denote by $ O_{1},O_{2},O_{3}$ the circumcenters of triangle $ PBC,PCA,PAB$, $ O'_{1},O'_{2},O'_{3}$ the circumcenters of triangle $ QBC,QCA,QAB$, $ O$ the circumcenter of triangle $ O_{1}O_{2}O_{3}$, $ O'$ the circumcenter of triangle $ O'_{1}O'_{2}O'_{3}$. Prove that $ OO'$ is parallel to $ PQ$.
2000 Moldova National Olympiad, Problem 3
For every nonempty subset $X$ of $M=\{1,2,\ldots,2000\}$, $a_X$ denotes the sum of the minimum and maximum element of $X$. Compute the arithmetic mean of the numbers $a_X$ when $X$ goes over all nonempty subsets $X$ of $M$.
2016 HMNT, 6
Let $P_1, P_2, \ldots, P_6$ be points in the complex plane, which are also roots of the equation $x^6+6x^3-216=0$. Given that $P_1P_2P_3P_4P_5P_6$ is a convex hexagon, determine the area of this hexagon.
2010 JBMO Shortlist, 2
[b]Determine all four digit numbers [/b]$\bar{a}\bar{b}\bar{c}\bar{d}$[b] such that[/b]
$$a(a+b+c+d)(a^{2}+b^{2}+c^{2}+d^{2})(a^{6}+2b^{6}+3c^{6}+4d^{6})=\bar{a}\bar{b}\bar{c}\bar{d}$$
2019 New Zealand MO, 6
Let $V$ be the set of vertices of a regular $21$-gon. Given a non-empty subset $U$ of $V$ , let $m(U)$ be the number of distinct lengths that occur between two distinct vertices in $U$. What is the maximum value of $\frac{m(U)}{|U|}$ as $U$ varies over all non-empty subsets of $V$ ?
2021 Taiwan TST Round 2, 1
In a regular 100-gon, 41 vertices are colored black and the remaining 59 vertices are colored white. Prove that there exist 24 convex quadrilaterals $Q_{1}, \ldots, Q_{24}$ whose corners are vertices of the 100-gon, so that
[list]
[*] the quadrilaterals $Q_{1}, \ldots, Q_{24}$ are pairwise disjoint, and
[*] every quadrilateral $Q_{i}$ has three corners of one color and one corner of the other color.
[/list]
2021 Purple Comet Problems, 1
The diagram shows two intersecting line segments that form some of the sides of two squares with side lengths $3$ and $6$. Two line segments join vertices of these squares. Find the area of the region enclosed by the squares and segments.
Denmark (Mohr) - geometry, 1995.1
A trapezoid has side lengths as indicated in the figure (the sides with length $11$ and $36$ are parallel). Calculate the area of the trapezoid.[img]https://1.bp.blogspot.com/-5PKrqDG37X4/XzcJtCyUv8I/AAAAAAAAMY0/tB0FObJUJdcTlAJc4n6YNEaVIDfQ91-eQCLcBGAsYHQ/s0/1995%2BMohr%2Bp1.png[/img]
2013 Turkey MO (2nd round), 2
Let $m$ be a positive integer.
[b]a.[/b] Show that there exist infinitely many positive integers $k$ such that $1+km^3$ is a perfect cube and $1+kn^3$ is not a perfect cube for all positive integers $n<m$.
[b]b.[/b] Let $m=p^r$ where $p \equiv 2 \pmod 3$ is a prime number and $r$ is a positive integer. Find all numbers $k$ satisfying the condition in part a.
2005 May Olympiad, 3
In a triangle $ABC$ with $AB = AC$, let $M$ be the midpoint of $CB$ and let $D$ be a point in $BC$ such that $\angle BAD = \frac{\angle BAC}{6}$. The perpendicular line to $AD$ by $C$ intersects $AD$ in $N$ where $DN = DM$. Find the angles of the triangle $BAC$.
1998 Belarus Team Selection Test, 1
Any of $6$ gossips has her own news. From time to time one of them makes a telephone call to some other gossip and they discuss fill the news they know. What the minimum number of the calls is necessary so as (for) all of them to know all the news?
1941 Putnam, A7
Do either (1) or (2):
(1) Prove that the determinant of the matrix
$$\begin{pmatrix}
1+a^2 -b^2 -c^2 & 2(ab+c) & 2(ac-b)\\
2(ab-c) & 1-a^2 +b^2 -c^2 & 2(bc+a)\\
2(ac+b)& 2(bc-a) & 1-a^2 -b^2 +c^2
\end{pmatrix}$$
is given by $(1+a^2 +b^2 +c^2)^{3}$.
(2) A solid is formed by rotating the first quadrant of the ellipse $\frac{x^{2}}{a^{2}}+\frac{y^{2}}{b^{2}}=1$ around the $x$-axis. Prove that this solid can rest in stable equilibrium on its vertex if and only if $\frac{a}{b}\leq \sqrt{\frac{8}{5}}$.
2022 Princeton University Math Competition, 13
Of all functions $h : Z_{>0} \to Z_{\ge 0}$, choose one satisfying $h(ab) = ah(b) + bh(a)$ for all $a, b \in Z_{>0}$ and $h(p) = p$ for all prime numbers $p$. Find the sum of all positive integers $n\le 100$ such that $h(n) = 4n$.
2020 Kosovo National Mathematical Olympiad, 4
Let $p$ and $q$ be prime numbers. Show that $p^2+q^2+2020$ is composite.
2009 IMO Shortlist, 6
Suppose that $ s_1,s_2,s_3, \ldots$ is a strictly increasing sequence of positive integers such that the sub-sequences \[s_{s_1},\, s_{s_2},\, s_{s_3},\, \ldots\qquad\text{and}\qquad s_{s_1+1},\, s_{s_2+1},\, s_{s_3+1},\, \ldots\] are both arithmetic progressions. Prove that the sequence $ s_1, s_2, s_3, \ldots$ is itself an arithmetic progression.
[i]Proposed by Gabriel Carroll, USA[/i]
2008 Korea - Final Round, 3
Determine all functions $f : \mathbb{R}^+\rightarrow\mathbb{R}$ that satisfy the following
$f(1)=2008$, $|{f(x)}| \le x^2+1004^2$, $f\left (x+y+\frac{1}{x}+\frac{1}{y}\right )=f\left (x+\frac{1}{y}\right )+f\left (y+\frac{1}{x}\right ).$
1999 Taiwan National Olympiad, 3
There are $1999$ people participating in an exhibition. Among any $50$ people there are two who don't know each other. Prove that there are $41$ people, each of whom knows at most $1958$ people.
1995 Dutch Mathematical Olympiad, 2
For any point $ P$ on a segment $ AB$, isosceles and right-angled triangles $ AQP$ and $ PRB$ are constructed on the same side of $ AB$, with $ AP$ and $ PB$ as the bases. Determine the locus of the midpoint $ M$ of $ QR$ when $ P$ describes the segment $ AB$.
2019 PUMaC Individual Finals A, B, B3
Let $MN$ be a chord of the circle $\Gamma$ and let $S$ be the midpoint of $MN$. Let $A, B, C, D$ be
points on $\Gamma$ such that $AC$ and $BD$ intersect at $S$ and $A$ and $B$ are on the same side of $MN$.
Let $d_A, d_B, d_C , d_D$ be the distances from $MN$ to $A, B, C,$ and $D,$ respectively. Prove that $\frac{1}{d_A}+\frac{1}{d_D}=\frac{1}{d_B}+\frac{1}{d_C}$.
2008 Gheorghe Vranceanu, 1
Find the complex numbers $ a,b $ having the properties that $ |a|=|b|=1=\bar{a} +\bar{b} -ab. $
MathLinks Contest 4th, 7.2
Let $\Omega$ be the incircle of a triangle $ABC$. Suppose that there exists a circle passing through $B$ and $C$ and tangent to $\Omega$ in $A'$. Suppose the similar points $B'$, $C'$ exist. Prove that the lines $AA', BB'$ and $CC'$ are concurrent.
2014 IFYM, Sozopol, 8
In a class with $n$ students in the span of $k$ days, each day are chosen three to be tested. Each two students can be taken in such triple only once. Prove that for the greatest $k$ satisfying these conditions, the following inequalities are true:
$\frac{n(n-3)}{6}\leq k\leq \frac{n(n-1)}{6}$.
2008 AIME Problems, 4
There exist $ r$ unique nonnegative integers $ n_1 > n_2 > \cdots > n_r$ and $ r$ unique integers $ a_k$ ($ 1\le k\le r$) with each $ a_k$ either $ 1$ or $ \minus{} 1$ such that
\[ a_13^{n_1} \plus{} a_23^{n_2} \plus{} \cdots \plus{} a_r3^{n_r} \equal{} 2008.
\]Find $ n_1 \plus{} n_2 \plus{} \cdots \plus{} n_r$.