Found problems: 85335
2013 China Team Selection Test, 1
Let $n\ge 2$ be an integer. $a_1,a_2,\dotsc,a_n$ are arbitrarily chosen positive integers with $(a_1,a_2,\dotsc,a_n)=1$. Let $A=a_1+a_2+\dotsb+a_n$ and $(A,a_i)=d_i$. Let $(a_2,a_3,\dotsc,a_n)=D_1, (a_1,a_3,\dotsc,a_n)=D_2,\dotsc, (a_1,a_2,\dotsc,a_{n-1})=D_n$.
Find the minimum of $\prod\limits_{i=1}^n\dfrac{A-a_i}{d_iD_i}$
1959 Putnam, A3
Find all complex-valued functions $f$ of a complex variable such that $$f(z)+zf(1-z)=1+z$$
for all $z\in \mathbb{C}$.
2023 AMC 10, 12
How many three-digit positive integers $N$ satisfy the following properties?
- The number $N$ is divisible by $7$.
- The number formed by reversing the digits of $N$ is divisible by $5$.
$\textbf{(A) }13\qquad\textbf{(B) }14\qquad\textbf{(C) }15\qquad\textbf{(D) }16\qquad\textbf{(E) }17$
2005 ISI B.Stat Entrance Exam, 1
Let $a,b$ and $c$ be the sides of a right angled triangle. Let $\theta$ be the smallest angle of this triangle. If $\frac{1}{a}, \frac{1}{b}$ and $\frac{1}{c}$ are also the sides of a right angled triangle then show that $\sin\theta=\frac{\sqrt{5}-1}{2}$
1993 ITAMO, 2
Find all pairs $(p,q)$ of positive primes such that the equation $3x^2 - px + q = 0$ has two distinct rational roots.
1995 China Team Selection Test, 2
Given a fixed acute angle $\theta$ and a pair of internally tangent circles, let the line $l$ which passes through the point of tangency, $A$, cut the larger circle again at $B$ ($l$ does not pass through the centers of the circles). Let $M$ be a point on the major arc $AB$ of the larger circle, $N$ the point where $AM$ intersects the smaller circle, and $P$ the point on ray $MB$ such that $\angle MPN = \theta$. Find the locus of $P$ as $M$ moves on major arc $AB$ of the larger circle.
2009 Tournament Of Towns, 3
Each square of a $10\times 10$ board contains a chip. One may choose a diagonal containing an even number of chips and remove any chip from it. Find the maximal number of chips that can be removed from the board by these operations.
2009 Baltic Way, 16
A [i]$n$-trønder walk[/i] is a walk starting at $(0, 0)$, ending at $(2n, 0)$ with no self intersection and not leaving the first quadrant, where every step is one of the vectors $(1, 1)$, $(1, -1)$ or $(-1, 1)$. Find the number of $n$-trønder walks.
2013 Saudi Arabia GMO TST, 1
Find all functions $f : R \to R$ which satisfy $f \left(\frac{\sqrt3}{3} x\right) = \sqrt3 f(x) - \frac{2\sqrt3}{3} x$
and $f(x)f(y) = f(xy) + f \left(\frac{x}{y} \right) $ for all $x, y \in R$, with $y \ne 0$
2025 Poland - First Round, 4
Find all positive integers $n\geq 2$, for which there exist positive integers $a_1, a_2, ..., a_n$ such that both sets
$$\{a_1, a_2, ..., a_n\}\;\;\;and\;\;\;\{a_1+a_2, a_2+a_3, ..., a_n+a_1\}$$
contain $n$ consecutive integers.
2016 Iran Team Selection Test, 6
Let $\mathbb{Z}_{>0}$ denote the set of positive integers. For any positive integer $k$, a function $f: \mathbb{Z}_{>0} \to \mathbb{Z}_{>0}$ is called [i]$k$-good[/i] if $\gcd(f(m) + n, f(n) + m) \le k$ for all $m \neq n$. Find all $k$ such that there exists a $k$-good function.
[i]Proposed by James Rickards, Canada[/i]
2006 Estonia Math Open Junior Contests, 6
Find all real numbers with the following property: the difference of its cube and
its square is equal to the square of the difference of its square and the number itself.
2005 Sharygin Geometry Olympiad, 9.2
Find all isosceles triangles that cannot be cut into three isosceles triangles with the same sides.
2012 Princeton University Math Competition, A1 / B2
If the probability that the sum of three distinct integers between $16$ and $30$ (inclusive) is even can be written as $\frac{m}{n}$ , where $m$ and $n$ are relatively prime positive integers, find $m + n$.
1998 AMC 8, 25
Three generous friends, each with some money, redistribute the money as follow:
Amy gives enough money to Jan and Toy to double each amount has.
Jan then gives enough to Amy and Toy to double their amounts.
Finally, Toy gives enough to Amy and Jan to double their amounts.
If Toy had 36 dollars at the beginning and 36 dollars at the end, what is the total amount that all three friends have?
$\textbf{(A)}\ 108 \qquad
\textbf{(B)}\ 180 \qquad
\textbf{(C)}\ 216 \qquad
\textbf{(D)}\ 252 \qquad
\textbf{(E)}\ 288$
2012 Peru MO (ONEM), 4
In a circle $S$, a chord $AB$ is drawn and let $M$ be the midpoint of the arc $AB$. Let $P$ be a point in segment $AB$ other than its midpoint. The extension of the segment $MP$ cuts $S$ in $Q$. Let $S_1$ be the circle that is tangent to the AP segments and $MP$, and also is tangent to $S$, and let $S_2$ be the circle that is tangent to the segments $BP$ and $MP$, and also tangent to $S$. The common outer tangent lines to the circles $S_1$ and $S_2$ are cut at $C$. Prove that $\angle MQC = 90^o$.
1998 IMC, 3
Let $f(x)=2x(1-x), x\in\mathbb{R}$ and denote $f_n=f\circ f\circ ... \circ f$, $n$ times.
(a) Find $\lim_{n\rightarrow\infty} \int^1_0 f_n(x)dx$.
(b) Now compute $\int^1_0 f_n(x)dx$.
2022 SEEMOUS, 3
Let $\alpha \in \mathbb{C}\setminus \{0\}$ and $A \in \mathcal{M}_n(\mathbb{C})$, $A \neq O_n$, be such that
$$A^2 + (A^*)^2 = \alpha A\cdot A^*,$$
where $A^* = (\bar A)^T.$ Prove that $\alpha \in \mathbb{R}$, $|\alpha| \le 2$. and $A\cdot A^* = A^*\cdot A.$
2018 ELMO Shortlist, 1
Let $f:\mathbb{R}\to\mathbb{R}$ be a bijective function. Does there always exist an infinite number of functions $g:\mathbb{R}\to\mathbb{R}$ such that $f(g(x))=g(f(x))$ for all $x\in\mathbb{R}$?
[i]Proposed by Daniel Liu[/i]
2003 Singapore Team Selection Test, 1
Determine whether there exists a positive integer $n$ such that the sum of the digits of $n^2$ is $2002$.
2019 China Girls Math Olympiad, 7
Let $DFGE$ be a cyclic quadrilateral. Line $DF$ intersects $EG$ at $C,$ and line $FE$ intersects $DG$ at $H.$ $J$ is the midpoint of $FG.$ The line $\ell$ is the reflection of the line $DE$ in $CH,$ and it intersects line $GF$ at $I.$
Prove that $C,J,H,I$ are concyclic.
2017 Iran MO (3rd round), 1
Let $ABC$ be a right-angled triangle $\left(\angle A=90^{\circ}\right)$ and $M$ be the midpoint of $BC$. $\omega_1$ is a circle which passes through $B,M$ and touchs $AC$ at $X$. $\omega_2$ is a circle which passes through $C,M$ and touchs $AB$ at $Y$ ($X,Y$ and $A$ are in the same side of $BC$). Prove that $XY$ passes through the midpoint of arc $BC$ (does not contain $A$) of the circumcircle of $ABC$.
2010 Balkan MO Shortlist, G2
Consider a cyclic quadrilateral such that the midpoints of its sides form another cyclic quadrilateral. Prove that the area of the smaller circle is less than or equal to half the area of the bigger circle
1950 Putnam, A6
Each coefficient $a_n$ of the power series \[a_0 + a_1 x + a_2 x^2 + a_3 x^3 + \cdots = f(x)\] has either the value of $1$ or the value $0.$ Prove the easier of the two assertions:
(i) If $f(0.5)$ is a rational number, $f(x)$ is a rational function.
(ii) If $f(0.5)$ is not a rational number, $f(x)$ is not a rational function.
1994 Tournament Of Towns, (428) 5
The periods of two periodic sequences are $7$ and $13$. What is the maximal length of initial sections of the two sequences which can coincide? (The period $p$ of a sequence $a_1$,$a_2$, $...$ is the minimal $p$ such that $a_n = a_{n+p}$ for all $n$.)
(AY Belov)