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k a April Highlights and 2025 AoPS Online Class Information
jlacosta   0
Yesterday at 3:18 PM
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0 replies
jlacosta
Yesterday at 3:18 PM
0 replies
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D1010 : How it is possible ?
Dattier   13
N 13 minutes ago by Dattier
Source: les dattes à Dattier
Is it true that$$\forall n \in \mathbb N^*, (24^n \times B \mod A) \mod 2 = 0 $$?

A=1728400904217815186787639216753921417860004366580219212750904
024377969478249664644267971025952530803647043121025959018172048
336953969062151534282052863307398281681465366665810775710867856
720572225880311472925624694183944650261079955759251769111321319
421445397848518597584590900951222557860592579005088853698315463
815905425095325508106272375728975

B=2275643401548081847207782760491442295266487354750527085289354
965376765188468052271190172787064418854789322484305145310707614
546573398182642923893780527037224143380886260467760991228567577
953725945090125797351518670892779468968705801340068681556238850
340398780828104506916965606659768601942798676554332768254089685
307970609932846902
13 replies
Dattier
Mar 10, 2025
Dattier
13 minutes ago
J
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iran tst 2018 geometry
Etemadi   10
N 14 minutes ago by amirhsz
Source: Iranian TST 2018, second exam day 2, problem 5
Let $\omega$ be the circumcircle of isosceles triangle $ABC$ ($AB=AC$). Points $P$ and $Q$ lie on $\omega$ and $BC$ respectively such that $AP=AQ$ .$AP$ and $BC$ intersect at $R$. Prove that the tangents from $B$ and $C$ to the incircle of $\triangle AQR$ (different from $BC$) are concurrent on $\omega$.

Proposed by Ali Zamani, Hooman Fattahi
10 replies
Etemadi
Apr 17, 2018
amirhsz
14 minutes ago
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n=y^2+108
Havu   2
N 26 minutes ago by MuradSafarli
Given the positive integer $n = y^2 + 108$ where $y \in \mathbb{N}$.
Prove that $n$ cannot be a perfect cube of a positive integer.
2 replies
Havu
an hour ago
MuradSafarli
26 minutes ago
J
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Functional equations
hanzo.ei   10
N 44 minutes ago by truongphatt2668
Source: Greekldiot
Find all $f: \mathbb R_+ \rightarrow \mathbb R_+$ such that $f(xf(y)+f(x))=yf(x+yf(x)) \: \forall \: x,y \in \mathbb R_+$
10 replies
+1 w
hanzo.ei
Mar 29, 2025
truongphatt2668
44 minutes ago
J
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Solve the equetion
yt12   5
N Today at 6:20 AM by KevinKV01
Solve the equetion:$\sin 2x+\tan x=2$
5 replies
yt12
Mar 31, 2025
KevinKV01
Today at 6:20 AM
J
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Easiest functional equation?
ZETA_in_olympiad   28
N Today at 4:07 AM by jkim0656
Here I want the users to post the functional equations that they think are the easiest. Everyone (including the one who posted the problem) are able to post solutions.
28 replies
ZETA_in_olympiad
Mar 19, 2022
jkim0656
Today at 4:07 AM
J
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Polynomial optimization problem
ReticulatedPython   2
N Yesterday at 12:38 PM by Mathzeus1024
Let $$p(x)=-ax^4+x^3$$, where $a$ is a real number. Prove that for all positive $a$, $$p(x) \le \frac{27}{256a^3}.$$
2 replies
ReticulatedPython
Mar 31, 2025
Mathzeus1024
Yesterday at 12:38 PM
J
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Inequalities (Please help me!!!)
yt12   6
N Apr 1, 2025 by lamhihi1234
Let $a,b,c$ be reals with $a+b+c=1$and $ a,b,c \ge \frac{-3}{ 4}$. Prove that
$$\frac{a}{a^2+1}+\frac{b}{b^2+1}+\frac{c}{ c^2+1} \le \frac{9}{ 10}$$
6 replies
yt12
Mar 4, 2023
lamhihi1234
Apr 1, 2025
J
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Functional Equation
ab_xy123   4
N Apr 1, 2025 by millennium2k
Find all solutions to the functional equation $f(1-x) = f(x) + 1 - 2x$
4 replies
ab_xy123
Mar 16, 2020
millennium2k
Apr 1, 2025
J
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Three 3-digit numbers
miiirz30   3
N Apr 1, 2025 by henryli3333
Leonard wrote three 3-digit numbers on the board whose sum is $1000$. All of the nine digits are different. Determine which digit does not appear on the board.

Proposed by Giorgi Arabidze, Georgia
3 replies
miiirz30
Mar 31, 2025
henryli3333
Apr 1, 2025
J
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k functional equation
Tony_stark0094   4
N Mar 31, 2025 by jasperE3
solve for $f:R \rightarrow R$ such that
$$f(x+f(y))=y+f(x+1)$$
4 replies
Tony_stark0094
Mar 31, 2025
jasperE3
Mar 31, 2025
J
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Inequality
lgx57   1
N Mar 31, 2025 by sqing
Let $x,y,z \ge 0$ and $xyz=1$. Prove that

$$\sum \frac{1}{x^2+x+1} \ge 1$$
1 reply
lgx57
Mar 31, 2025
sqing
Mar 31, 2025
J
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functional equation in R2
jasperE3   2
N Mar 31, 2025 by alexheinis
Find all functions $f:\mathbb R\times\mathbb R\to\mathbb R$ such that:
$a)\enspace f(x+z,y+z)=f(x,y)+z$
$b)\enspace f(xw,yw)=wf(x,y)$
both hold $\forall w,x,y,z\in\mathbb R,w\ne0$.
2 replies
jasperE3
Mar 27, 2021
alexheinis
Mar 31, 2025
J
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f(x^2-1998x)-f^2(2x-1999)>=1/4 (VI Soros Olympiad 1990-00 R1 9.4)
parmenides51   1
N Mar 31, 2025 by jasperE3
Is there a function $f(x)$, which satisfies both of the following conditions:

a) if $x \ne y$, then $f(x)\ne f(y)$

b) for all real $x$, holds the inequality $f(x^2-1998x)-f^2(2x-1999)\ge \frac14$?
1 reply
parmenides51
May 27, 2024
jasperE3
Mar 31, 2025
J
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J
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Train yourself on folklore NT FE ideas
Assassino9931   2
N Mar 30, 2025 by bo18
Source: Bulgaria Spring Mathematical Competition 2025 9.4
Determine all functions $f: \mathbb{Z}_{>0} \to \mathbb{Z}_{>0}$ such that $f(a) + 2ab + 2f(b)$ divides $f(a)^2 + 4f(b)^2$ for any positive integers $a$ and $b$.
2 replies
Assassino9931
Mar 30, 2025
bo18
Mar 30, 2025
J
Train yourself on folklore NT FE ideas
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Reveal topic tags
functional equation
number theory
Divisibility
primes
Sophie Germain identity
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G H BBookmark kLocked kLocked NReply
Source: Bulgaria Spring Mathematical Competition 2025 9.4
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Assassino9931
1220 posts
Assassino9931
#1 Mar 30, 2025, 12:39 PM
Y by
Determine all functions $f: \mathbb{Z}_{>0} \to \mathbb{Z}_{>0}$ such that $f(a) + 2ab + 2f(b)$ divides $f(a)^2 + 4f(b)^2$ for any positive integers $a$ and $b$.
This post has been edited 1 time. Last edited by Assassino9931, Mar 30, 2025, 1:10 PM
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bin_sherlo
672 posts
bin_sherlo
#2 Mar 30, 2025, 1:43 PM • 1 Y
Y by MR.1
Answer is $f(x)=x^2$ for all positive integers. Let $P(a,b)$ be the assertion of $f(a)+2f(b)+2ab|f(a)^2+4f(b)^2$.
Claim: $f(1)=1$.
Proof: $P(1,1)$ gives $3f(1)+2|5f(1)^2$ or $3f(1)+2|20$ so $f(1)=1$ or $f(1)=6$. Suppose that $f(1)=6$. $P(1,5)$ yields $6+2f(5)+10|36+4f(5)^2$ or $f(5)+8|2f(5)^2+18$ or $f(5)+8|146$. Thus, $f(5)=65$ or $f(5)=138$. However, $P(5,1)$ gives $f(5)+22|f(5)^2+144$. If $f(5)=65$, then $3|87|65^2+144$ and if $f(5)=138$, then $5|160|138^2+144$ which are not correct. Hence $f(1)=1$.
Claim: $f(a)\leq a^2$.
Proof: $P(a,1)$ yields $2f(a)+2a+1|4f(a)^2+1$ or $2f(a)+2a+1|2(2a^2+2a+1)$ or $2f(a)+2a+1|2a^2+2a+1$ hence $f(a)\leq a^2$.
Claim: For sufficiently large primes $p$, we have $f(p)=p^2$.
Proof: $P(a,a)$ implies $3f(a)+2a^2|20a^4$. We get $3f(p)+2p^2|20p^4$ and if $(p,f(p))=1$, then $3f(p)+2p^2|20$ which is impossible. If $f(p)=pk$ such that $(p,k)=1$, then $3k+2p|20p^3$ or $3k+2p|20$ which is impossible again. Thus, $p^2|f(p)$ and since $f(p)\leq p^2$, we have $f(p)=p^2$ for sufficiently large primes.
Claim: $f(a)=a^2$ for all positive integers.
Proof: Pick $p>2024!a$. By $P(a,p)$, we see that $f(a)+2pa+2p^2|f(a)^2+4p^4$ or $f(a)+2pa+2p^2|4p^2(p^2+(p+a)^2)=4p^2(2p^2+2pa+a^2)$ and since $(f(a)+2pa+2p^2,p)=1$, we have $f(a)+2pa+2p^2|4(2p^2+2pa+a^2)$ or $f(a)+2pa+2p^2|4(a^2-f(a))$. Since $f(a)+2pa+2p^2$ tends to positive infinity while right hand side is constant, $f(a)=a^2$ as desired.$\blacksquare$
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bo18
38 posts
bo18
#3 Mar 30, 2025, 5:02 PM
Y by
@above:
Just like my solution on competition
even the transformations on P(a, p)
Bravo
This post has been edited 1 time. Last edited by bo18, Mar 30, 2025, 5:03 PM
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