Olympiad problems

2007 Nicolae Coculescu, 1

Let be two real numbers $ x,y, $ and a natural number $ n_0 $ such that $ \{ n_0x \} = \{ n_0y \} $ and $ \{ (n_0+1)x \} = \{ (n_0+1)y \} ,$ where $ \{\} $ denotes the fractional part. Show that $ \{ nx \} =\{ ny \} , $ for any natural number $ n. $ [i]Ovidiu Pop[/i]

2018 District Olympiad, 1

Tags: number theory , fractional part

Prove that $\left\{ \frac{m}{n}\right\}+\left\{ \frac{n}{m}\right\} \ne 1$ , for any positive integers $m, n$.

2024 Romania National Olympiad, 2

Tags: algebra , fractional part

Let $a$ and $b$ be two numbers in the interval $(0,1)$ such that $a$ is rational and [center]$\{na\} \ge \{nb\},$ for every nonnegative integer $n.$[/center] Prove that $a=b.$ (Note: $\{x\}$ is the fractional part of $x.$)

2006 Cezar Ivănescu, 2

Tags: number theory , albegra , fractional part , algebra

[b]a)[/b] Prove that $ \{ a \} +\{ 1/a \} <3/2, $ for any positive real number $ a. $ [b]b)[/b] Give an example of a number $ b $ satisfying $ \{ b \} +\{ 1/b \} =1. $ [i]{} means fractional part[/i]

2003 Gheorghe Vranceanu, 1

Tags: fractional part , integer part , algebra

For a real number $ k\ge 2, $ solve the equation $ \frac{\{x\}[x]}{x} =k. $

2001 Tuymaada Olympiad, 7

Tags: integer , algebra , fractional part

Several rational numbers were written on the blackboard. Dima wrote off their fractional parts on paper. Then all the numbers on the board squared, and Dima wrote off another paper with fractional parts of the resulting numbers. It turned out that on Dima's papers were written the same sets of numbers (maybe in different order). Prove that the original numbers on the board were integers. (The fractional part of a number $x$ is such a number $\{x\}, 0 \le \{x\} <1$, that $x-\{x\}$ is an integer.)

VI Soros Olympiad 1999 - 2000 (Russia), 9.2

Tags: algebra , number theory , fractional part , floor function

Solve the equation $[x]\{x\} = 1999x$, where $[x]$ denotes the largest integer less than or equal to $x$, and $\{x\} = x -[x] $

2024 Junior Balkan Team Selection Tests - Romania, P2

Tags: number theory , fractional part

For any positive integer $n{}$ define $a_n=\{n/s(n)\}$ where $s(\cdot)$ denotes the sum of the digits and $\{\cdot\}$ denotes the fractional part.[list=a] [*]Prove that there exist infinitely many positive integers $n$ such that $a_n=1/2.$ [*]Determine the smallest positive integer $n$ such that $a_n=1/6.$ [/list] [i]Marius Burtea[/i]

1985 Tournament Of Towns, (086) 2

Tags: floor function , integer part , fractional part

The integer part $I (A)$ of a number $A$ is the greatest integer which is not greater than $A$ , while the fractional part $F(A)$ is defined as $A - I(A)$ . (a) Give an example of a positive number $A$ such that $F(A) + F( 1/A) = 1$ . (b) Can such an $A$ be a rational number? (I. Varge, Romania)

III Soros Olympiad 1996 - 97 (Russia), 11.1

Tags: trigonometry , algebra , fractional part

Find the smallest positive root of the equation $$\{tg x\}=\sin x. $$ ($\{a\}$ is the fractional part of $a$, $\{a\}$ is equal to the difference between $ a$ and the largest integer not exceeding $a$.)

2015 India Regional MathematicaI Olympiad, 6

Tags: number theory , fractional part , integer

Find all real numbers $a$ such that $3 < a < 4$ and $a(a-3\{a\})$ is an integer. (Here $\{a\}$ denotes the fractional part of $a$.)

2006 Mathematics for Its Sake, 1

Tags: equation , fractional part , algebra , floor

Solve in the set of real numbers the equation $$ 16\{ x \}^2-8x=-1, $$ where $ \{\} $ denotes the fractional part.

2011 District Olympiad, 4

Tags: algebra , fractional part

Let be a nonzero real number $ a, $ and a natural number $ n. $ Prove the implication: $$ \{ a \} +\left\{\frac{1}{a}\right\} =1 \implies \{ a^n \} +\left\{\frac{1}{a^n}\right\} =1 , $$ where $ \{\} $ is the fractional part.

2012 India Regional Mathematical Olympiad, 3

Tags: number theory , fractional part , solve- integer part , integer part , solve- fractional part , algebra

Solve for real $x$ : $2^{2x} \cdot 2^{3\{x\}} = 11 \cdot 2^{5\{x\}} + 5 \cdot 2^{2[x]}$ (For a real number $x, [x]$ denotes the greatest integer less than or equal to x. For instance, $[2.5] = 2$, $[-3.1] = -4$, $[\pi ] = 3$. For a real number $x, \{x\}$ is defined as $x - [x]$.)

2023 CIIM, 1

Tags: fractional part , infinite series , integral , calculus , integration

Determine all the pairs of positive real numbers $(a, b)$ with $a < b$ such that the following series $$\sum_{k=1}^{\infty} \int_a^b\{x\}^k dx =\int_a^b\{x\} dx + \int_a^b\{x\}^2 dx + \int_a^b\{x\}^3 dx + \cdots$$ is convergent and determine its value in function of $a$ and $b$. [b]Note: [/b] $\{x\} = x - \lfloor x \rfloor$ denotes the fractional part of $x$.

2013 Romania National Olympiad, 3

Tags: fractional part , integer part , floor function , algebra

Find all real $x > 0$ and integer $n > 0$ so that $$ \lfloor x \rfloor+\left\{ \frac{1}{x}\right\}= 1.005 \cdot n.$$

2017 Romania Team Selection Test, P4

Tags: quadratic residue , number theory , arithmetic mean , fractional part , odd , prime

Given a positive odd integer $n$, show that the arithmetic mean of fractional parts $\{\frac{k^{2n}}{p}\}, k=1,..., \frac{p-1}{2}$ is the same for infinitely many primes $p$ .

2019 Ramnicean Hope, 3

Tags: algebra , inequalities , equalities , fractional part

For this exercise, $ \{\} $ denotes the fractional part. [b]a)[/b] Let be a natural number $ n. $ Compare $ \left\{ \sqrt{n+1} -\sqrt{n} \right\} $ with $ \left\{ \sqrt{n} -\sqrt{n-1} \right\} . $ [b]b)[/b] Show that there are two distinct natural numbers $ a,b, $ such that $ \left\{ \sqrt{a} -\sqrt{b} \right\} =\left\{ \sqrt{b} -\sqrt{a} \right\} . $ [i]Traian Preda[/i]

2024 CIIM, 6

Tags: series , fractional part , convergence , ana , real analysis

Given a real number $x$, define the series \[ S(x) = \sum_{n=1}^{\infty} \{n! \cdot x\}, \] where $\{s\} = s - \lfloor s \rfloor$ is the fractional part of the number $s$. Determine if there exists an irrational number $x$ for which the series $S(x)$ converges.

2008 Gheorghe Vranceanu, 2

Tags: inequalities , kronecker , number theory , fractional part

Show that there is a natural number $ n $ that satisfies the following inequalities: $$ \sqrt{3} -\frac{1}{10}<\{ n\sqrt 3\} +\{ (n+1)\sqrt 3 \} <\sqrt 3. $$

2004 Alexandru Myller, 4

Tags: floor function , n-th root , integer part , fractional part , number theory

Find the real numbers $ x>1 $ having the property that $ \sqrt[n]{\lfloor x^n \rfloor } $ is an integer for any natural number $ n\ge 2. $ [i]Mihai Piticari[/i] and [i]Dan Popescu[/i]

2023 Ukraine National Mathematical Olympiad, 9.4

Tags: algebra , fractional part

Find the smallest real number $C$, such that for any positive integers $x \neq y$ holds the following: $$\min(\{\sqrt{x^2 + 2y}\}, \{\sqrt{y^2 + 2x}\})<C$$ Here $\{x\}$ denotes the fractional part of $x$. For example, $\{3.14\} = 0.14$. [i]Proposed by Anton Trygub[/i]

2018 China Western Mathematical Olympiad, 2

Tags: algebra , inequalities , fractional part , n-variable inequality

Let $n \geq 2$ be an integer. Positive reals $x_1, x_2, \cdots, x_n$ satisfy $x_1x_2 \cdots x_n = 1$. Show: $$\{x_1\} + \{x_2\} + \cdots + \{x_n\} < \frac{2n-1}{2}$$ Where $\{x\}$ denotes the fractional part of $x$.

2000 USA Team Selection Test, 3

Tags: inequalities , number theory , fractional part

Let $p$ be a prime number. For integers $r, s$ such that $rs(r^2 - s^2)$ is not divisible by $p$, let $f(r, s)$ denote the number of integers $n \in \{1, 2, \ldots, p - 1\}$ such that $\{rn/p\}$ and $\{sn/p\}$ are either both less than $1/2$ or both greater than $1/2$. Prove that there exists $N > 0$ such that for $p \geq N$ and all $r, s$, \[ \left\lceil \frac{p-1}{3} \right\rceil \le f(r, s) \le \left\lfloor \frac{2(p-1)}{3} \right\rfloor. \]

2006 Bosnia and Herzegovina Team Selection Test, 3

Tags: fractional part , inequality , number theory , positive integer , inequalities

Prove that for every positive integer $n$ holds inequality $\{n\sqrt{7}\}>\frac{3\sqrt{7}}{14n}$, where $\{x\}$ is fractional part of $x$.