Olympiad problems

2007 Princeton University Math Competition, 4

Tags: calculus , integration

Find the sum of the reciprocals of the positive integral factors of $84$.

2024 AMC 8 -, 19

Tags:

Jordan owns 15 pairs of sneakers. Three fifths of the pairs are red and the rest are white. Two thirds of the pairs are high-top and the rest are low-top. The red high-top sneakers make up a fraction of the collection. What is the least possible value of this fraction? [img]https://wiki-images.artofproblemsolving.com//thumb/a/a2/2024_AMC_8_-19.png/1200px-2024_AMC_8_-19.png[/img] $\textbf{(A) } 0\qquad\textbf{(B) } \dfrac{1}{5} \qquad\textbf{(C) } \dfrac{4}{15} \qquad\textbf{(D) } \dfrac{1}{3} \qquad\textbf{(E) } \dfrac{2}{5}$

2014-2015 SDML (High School), 8

Tags: algebra , polynomial

Consider the polynomial $$P\left(t\right)=t^3-29t^2+212t-399.$$ Find the product of all positive integers $n$ such that $P\left(n\right)$ is the sum of the digits of $n$.

2012 South africa National Olympiad, 6

Tags: inequalities , function , limit , algebra

Find all functions $f:\mathbb{N}\to\mathbb{R}$ such that $f(km)+f(kn)-f(k)f(mn)\ge 1$ for all $k,m,n\in\mathbb{N}$.

2010 Contests, 4

Tags: number theory

Let $p$ be a prime number of the form $4k+3$. Prove that there are no integers $w,x,y,z$ whose product is not divisible by $p$, such that: \[ w^{2p}+x^{2p}+y^{2p}=z^{2p}. \]

2023 Dutch IMO TST, 4

Tags: functional equation , functional equation in r , algebra

Find all functions $f: \mathbb{Q^+} \rightarrow \mathbb{Q}$ satisfying $f(x)+f(y)= \left(f(x+y)+\frac{1}{x+y} \right) (1-xy+f(xy))$ for all $x, y \in \mathbb{Q^+}$.

1958 AMC 12/AHSME, 41

Tags: algebra , polynomial , vieta

The roots of $ Ax^2 \plus{} Bx \plus{} C \equal{} 0$ are $ r$ and $ s$. For the roots of \[ x^2 \plus{} px \plus{} q \equal{} 0 \] to be $ r^2$ and $ s^2$, $ p$ must equal: $ \textbf{(A)}\ \frac{B^2 \minus{} 4AC}{A^2}\qquad \textbf{(B)}\ \frac{B^2 \minus{} 2AC}{A^2}\qquad \textbf{(C)}\ \frac{2AC \minus{} B^2}{A^2}\qquad \\ \textbf{(D)}\ B^2 \minus{} 2C\qquad \textbf{(E)}\ 2C \minus{} B^2$

2007 Today's Calculation Of Integral, 244

Tags: calculus , integration , function , geometry , calculus computations

A quartic funtion $ y \equal{} ax^4 \plus{} bx^3 \plus{} cx^2 \plus{} dx\plus{}e\ (a\neq 0)$ touches the line $ y \equal{} px \plus{} q$ at $ x \equal{} \alpha ,\ \beta \ (\alpha < \beta ).$ Find the area of the region bounded by these graphs in terms of $ a,\ \alpha ,\ \beta$.

2012 Today's Calculation Of Integral, 821

Tags: calculus , integration , inequalities , calculus computations , logarithm

Prove that : $\ln \frac{11}{27}<\int_{\frac 14}^{\frac 34} \frac{1}{\ln (1-x)}\ dx<\ln \frac{7}{15}.$

2008 Romania Team Selection Test, 3

Tags: geometry , search , induction , combinatorics

Let $ \mathcal{P}$ be a square and let $ n$ be a nonzero positive integer for which we denote by $ f(n)$ the maximum number of elements of a partition of $ \mathcal{P}$ into rectangles such that each line which is parallel to some side of $ \mathcal{P}$ intersects at most $ n$ interiors (of rectangles). Prove that \[ 3 \cdot 2^{n\minus{}1} \minus{} 2 \le f(n) \le 3^n \minus{} 2.\]

2014 Contests, 3

Tags:

Isabella had a week to read a book for a school assignment. She read an average of $36$ pages per day for the first three days and an average of $44$ pages per day for the next three days. She then finished the book by reading $10$ pages on the last day. How many pages were in the book? $\textbf{(A) }240\qquad\textbf{(B) }250\qquad\textbf{(C) }260\qquad\textbf{(D) }270\qquad \textbf{(E) }280$

2004 Putnam, B3

Tags: function , geometry , perimeter

Determine all real numbers $a>0$ for which there exists a nonnegative continuous function $f(x)$ defined on $[0,a]$ with the property that the region $R=\{(x,y): 0\le x\le a, 0\le y\le f(x)\}$ has perimeter $k$ units and area $k$ square units for some real number $k$.

2019 India PRMO, 30

Tags: number theory , floor function

For any real number $x$, let $\lfloor x \rfloor$ denote the integer part of $x$; $\{ x \}$ be the fractional part of $x$ ($\{x\}$ $=$ $x-$ $\lfloor x \rfloor$). Let $A$ denote the set of all real numbers $x$ satisfying $$\{x\} =\frac{x+\lfloor x \rfloor +\lfloor x + (1/2) \rfloor }{20}$$ If $S$ is the sume of all numbers in $A$, find $\lfloor S \rfloor$

2015 May Olympiad, 3

Tags: geometry , perpendicular , regular polygon

Let $ABCDEFGHI$ be a regular polygon of $9$ sides. The segments $AE$ and $DF$ intersect at $P$. Prove that $PG$ and $AF$ are perpendicular.

2012 China National Olympiad, 2

Tags: modular arithmetic , inequalities , number theory

Consider a square-free even integer $n$ and a prime $p$, such that 1) $(n,p)=1$; 2) $p\le 2\sqrt{n}$; 3) There exists an integer $k$ such that $p|n+k^2$. Prove that there exists pairwise distinct positive integers $a,b,c$ such that $n=ab+bc+ca$. [i]Proposed by Hongbing Yu[/i]

2017 India PRMO, 17

Tags: altitude , geometry , perimeter

Suppose the altitudes of a triangle are $10, 12$ and $15$. What is its semi-perimeter?

2006 Princeton University Math Competition, 3

Tags: algebra

Find the fifth root of $14348907$.

PEN D Problems, 4

Tags: congruence , modular arithmetic

Let $n$ be a positive integer. Prove that $n$ is prime if and only if \[{{n-1}\choose k}\equiv (-1)^{k}\pmod{n}\] for all $k \in \{ 0, 1, \cdots, n-1 \}$.

1989 Bundeswettbewerb Mathematik, 1

Tags: rational , decimal representation , periodic , number theory

For a given positive integer $n$, let $f(x) =x^{n}$. Is it possible for the decimal number $$0.f(1)f(2)f(3)\ldots$$ to be rational? (Example: for $n=2$, we are considering $0.1491625\ldots$)

1984 Canada National Olympiad, 5

Tags: trigonometry , inequalities , algebra

Given any $7$ real numbers, prove that there are two of them $x,y$ such that $0\le\frac{x-y}{1+xy}\le\frac{1}{\sqrt{3}}$.

2014 AIME Problems, 9

Tags: algebra , polynomial , vieta , quadratic , trigonometry

Let $x_1<x_2<x_3$ be three real roots of equation $\sqrt{2014}x^3-4029x^2+2=0$. Find $x_2(x_1+x_3)$.

2013 CHMMC (Fall), 3

Tags: algebra

Let $p_n$ be the product of the $n$th roots of $1$. For integral $x > 4$, let $f(x) = p_1 - p_2 + p_3 - p_4 + ... + (-1)^{x+1}p_x$. What is $f(2010)$?

2013 Stanford Mathematics Tournament, 8

Tags:

Find the sum of all real $x$ such that \[\frac{4x^2 + 15x + 17}{x^2 + 4x + 12}=\frac{5x^2 + 16x + 18}{2x^2 + 5x + 13}.\]

2013 China Western Mathematical Olympiad, 6

Tags: trigonometry , geometry

Let $PA, PB$ be tangents to a circle centered at $O$, and $C$ a point on the minor arc $AB$. The perpendicular from $C$ to $PC$ intersects internal angle bisectors of $AOC,BOC$ at $D,E$. Show that $CD=CE$

2022 Iran MO (2nd round), 6

Tags: geometry

we have an isogonal triangle $ABC$ such that $BC=AB$. take a random $P$ on the altitude from $B$ to $AC$. The circle $(ABP)$ intersects $AC$ second time in $M$. Take $N$ such that it's on the segment $AC$ and $AM=NC$ and $M \neq N$.The second intersection of $NP$ and circle $(APB)$ is $X$ , ($X \neq P$) and the second intersection of $AB$ and circle $(APN)$ is $Y$ ,($Y \neq A$).The tangent from $A$ to the circle $(APN)$ intersects the altitude from $B$ at $Z$. Prove that $CZ$ is tangent to circle $(PXY)$.