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k a March Highlights and 2025 AoPS Online Class Information
jlacosta   0
Mar 2, 2025
March is the month for State MATHCOUNTS competitions! Kudos to everyone who participated in their local chapter competitions and best of luck to all going to State! Join us on March 11th for a Math Jam devoted to our favorite Chapter competition problems! Are you interested in training for MATHCOUNTS? Be sure to check out our AMC 8/MATHCOUNTS Basics and Advanced courses.

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0 replies
jlacosta
Mar 2, 2025
0 replies
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k i Adding contests to the Contest Collections
dcouchman   1
N Apr 5, 2023 by v_Enhance
Want to help AoPS remain a valuable Olympiad resource? Help us add contests to AoPS's Contest Collections.

Find instructions and a list of contests to add here: https://artofproblemsolving.com/community/c40244h1064480_contests_to_add
1 reply
dcouchman
Sep 9, 2019
v_Enhance
Apr 5, 2023
J
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k i Zero tolerance
ZetaX   49
N May 4, 2019 by NoDealsHere
Source: Use your common sense! (enough is enough)
Some users don't want to learn, some other simply ignore advises.
But please follow the following guideline:


To make it short: ALWAYS USE YOUR COMMON SENSE IF POSTING!
If you don't have common sense, don't post.


More specifically:

For new threads:


a) Good, meaningful title:
The title has to say what the problem is about in best way possible.
If that title occured already, it's definitely bad. And contest names aren't good either.
That's in fact a requirement for being able to search old problems.

Examples:
Bad titles:
- "Hard"/"Medium"/"Easy" (if you find it so cool how hard/easy it is, tell it in the post and use a title that tells us the problem)
- "Number Theory" (hey guy, guess why this forum's named that way¿ and is it the only such problem on earth¿)
- "Fibonacci" (there are millions of Fibonacci problems out there, all posted and named the same...)
- "Chinese TST 2003" (does this say anything about the problem¿)
Good titles:
- "On divisors of a³+2b³+4c³-6abc"
- "Number of solutions to x²+y²=6z²"
- "Fibonacci numbers are never squares"


b) Use search function:
Before posting a "new" problem spend at least two, better five, minutes to look if this problem was posted before. If it was, don't repost it. If you have anything important to say on topic, post it in one of the older threads.
If the thread is locked cause of this, use search function.

Update (by Amir Hossein). The best way to search for two keywords in AoPS is to input
[code]+"first keyword" +"second keyword"[/code]
so that any post containing both strings "first word" and "second form".


c) Good problem statement:
Some recent really bad post was:
[quote]$lim_{n\to 1}^{+\infty}\frac{1}{n}-lnn$[/quote]
It contains no question and no answer.
If you do this, too, you are on the best way to get your thread deleted. Write everything clearly, define where your variables come from (and define the "natural" numbers if used). Additionally read your post at least twice before submitting. After you sent it, read it again and use the Edit-Button if necessary to correct errors.


For answers to already existing threads:


d) Of any interest and with content:
Don't post things that are more trivial than completely obvious. For example, if the question is to solve $x^{3}+y^{3}=z^{3}$, do not answer with "$x=y=z=0$ is a solution" only. Either you post any kind of proof or at least something unexpected (like "$x=1337, y=481, z=42$ is the smallest solution). Someone that does not see that $x=y=z=0$ is a solution of the above without your post is completely wrong here, this is an IMO-level forum.
Similar, posting "I have solved this problem" but not posting anything else is not welcome; it even looks that you just want to show off what a genius you are.

e) Well written and checked answers:
Like c) for new threads, check your solutions at least twice for mistakes. And after sending, read it again and use the Edit-Button if necessary to correct errors.



To repeat it: ALWAYS USE YOUR COMMON SENSE IF POSTING!


Everything definitely out of range of common sense will be locked or deleted (exept for new users having less than about 42 posts, they are newbies and need/get some time to learn).

The above rules will be applied from next monday (5. march of 2007).
Feel free to discuss on this here.
49 replies
ZetaX
Feb 27, 2007
NoDealsHere
May 4, 2019
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ortho conf DEF, radius MD, intersect ME,MF, collinear H,K,L
star-1ord   0
a few seconds ago
Source: Estonia Final Round 2025 12-3
Let $ABC$ be an acute-angled triangle with $|AB|<|AC|$. The altitudes $AD,BE$ and $CF$ intersect at $H$. Let $M$ be the midpoint of $BC$. Point $K$ is chosen on the extension of $EM$ beyond $M$ and point $L$ is chosen on the segment $FM$ such that $|MK|=|ML|=|MD|$. Prove that points $K, L$ and $H$ are collinear.

a little harder version
0 replies
+1 w
star-1ord
a few seconds ago
0 replies
J
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Funny system of equations in three variables
Tintarn   10
N 43 minutes ago by Marcus_Zhang
Source: Baltic Way 2020, Problem 5
Find all real numbers $x,y,z$ so that
\begin{align*} x^2 y + y^2 z + z^2 &= 0 \\ z^3 + z^2 y + z y^3 + x^2 y &= \frac{1}{4}(x^4 + y^4). \end{align*}
10 replies
Tintarn
Nov 14, 2020
Marcus_Zhang
43 minutes ago
J
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a^{2m}+a^{n}+1 is perfect square
kmh1   1
N an hour ago by kmh1
Source: own
Find all positive integer triplets $(a,m,n)$ such that $2m>n$ and $a^{2m}+a^{n}+1$ is a perfect square.
1 reply
kmh1
Mar 20, 2025
kmh1
an hour ago
J
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Interesting problem
deraxenrovalo   0
an hour ago
Given $\triangle$$ABC$ with circumcenter $O$$.\;$Let $P$ be an arbitrary point on $(BOC)$ such that $P$ is outside $(ABC)$$.\;$Let $Q$ be an arbitrary point on $(ABC)$$.\;$$AB$ cuts $(ACP)$ again at $E$ and $AC$ cuts $(ABP)$ again at $F$$.\;$The intersection of $BF$ and $CE$ is $R$$.\;$Let $X$ and $Y$ be the intersection of $EF$ with $(PQC)$ and $(PQR)$ respectively such that $X$, $Y$, $P$ are pairwise distinct.
Show that : $(APX)$, $(BPY)$, $(QPE)$ are coaxial circles

hint
0 replies
deraxenrovalo
an hour ago
0 replies
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Vieta Jumping Unsolved(Reposted)
Eagle116   0
an hour ago
Source: MONT, Vieta Jumping part
The question is:
Let $x_1$, $x_2$, $\dots$, $x_n$ be $n$ integers. If $k>n$ is an integer, prove that the only solution to
$$x_1^2 + x_2^2 + \dots + x_n^2 = kx_1x_2\dots x_n $$is is $x_1 = x_2 = \dots = x_n = 0$.
0 replies
Eagle116
an hour ago
0 replies
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Geometry with parallel lines.
falantrng   32
N an hour ago by endless_abyss
Source: RMM 2018,D1 P1
Let $ABCD$ be a cyclic quadrilateral an let $P$ be a point on the side $AB.$ The diagonals $AC$ meets the segments $DP$ at $Q.$ The line through $P$ parallel to $CD$ mmets the extension of the side $CB$ beyond $B$ at $K.$ The line through $Q$ parallel to $BD$ meets the extension of the side $CB$ beyond $B$ at $L.$ Prove that the circumcircles of the triangles $BKP$ and $CLQ$ are tangent .
32 replies
falantrng
Feb 24, 2018
endless_abyss
an hour ago
J
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sum divides n-th moment
navi_09220114   1
N an hour ago by ja.
Source: Own. Malaysian IMO TST 2025 P9
Given four distinct positive integers $a<b<c<d$ such that $\gcd(a,b,c,d)=1$, find the maximum possible number of integers $1\le n\le 2025$ such that $$a+b+c+d\mid a^n+b^n+c^n+d^n$$
Proposed by Ivan Chan Kai Chin
1 reply
navi_09220114
Yesterday at 1:07 PM
ja.
an hour ago
J
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Nice problem
hanzo.ei   0
2 hours ago
Find all functions \( f: \mathbb{R} \to \mathbb{R} \) such that
\[ f(xy) = f(x)f(y) \;-\; f(x + y) \;+\; 1, \quad \forall x, y \in \mathbb{R}. \]
0 replies
hanzo.ei
2 hours ago
0 replies
J
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Find all functions
Jackson0423   0
2 hours ago
Find all functions F:R->R such that
1/(F(F(x))-F(x))=F(x)
I know x+1/x works..
0 replies
Jackson0423
2 hours ago
0 replies
J
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2x+1 is a perfect square but the following x+1 integers are not.
Sumgato   7
N 2 hours ago by Davut1102
Source: Spain Mathematical Olympiad 2018 P1
Find all positive integers $x$ such that $2x+1$ is a perfect square but none of the integers $2x+2, 2x+3, \ldots, 3x+2$ are perfect squares.
7 replies
1 viewing
Sumgato
Mar 17, 2018
Davut1102
2 hours ago
J
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Prove that P1(x), P2(x) ,... Pn(x) = k has no root
truongphatt2668   2
N 2 hours ago by truongphatt2668
Let $n \in \mathbb{N}^*$ and $P_1(x),P_2(x), \ldots P_n(x) \in \mathbb{Z}[x]$ such that $\mathrm{deg} P_i = 2, \forall i = \overline{1,n}$. Prove that exists many $k \in \mathbb{N}$ such that every equation: $P_i(x) = k, \forall i = \overline{1,n}$ has no real roots
2 replies
truongphatt2668
Today at 2:26 AM
truongphatt2668
2 hours ago
J
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Geo: incircle, escircle, isotomic conjugate
XAN4   1
N 2 hours ago by deraxenrovalo
Source: Own
For $\triangle{ABC}$, Its incircle $\odot I$ and $A-$escircle $\odot I_A$ are tangent to $BC$ at $D$ and $E$ respectively. $AI$ intersects line $BC$ at $J$. Line $AD$ intersects $\odot I$ at $F$, and line $AE$ intersects $\odot I_A$ at $G$. Line $FG$ intersects $BC$ at $H$. Prove that $BJ=CH$.
1 reply
XAN4
Mar 19, 2025
deraxenrovalo
2 hours ago
J
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special sets
ChubbyTomato426   0
2 hours ago
Let $n$ be a positive integer. A subset $\{a, b, c, d\} \subseteq \{1, 2, . . . , 4n\}$ with four distinct elements is special if there exists a rearrangement $(x, y, z, w)$ of $(a, b, c, d)$ such that $xy -zw = 1$. Prove that the set $\{1, 2, . . . , 4n \}$ cannot be partitioned into $n$ special disjoint sets.
0 replies
ChubbyTomato426
2 hours ago
0 replies
J
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2, 4, 5-Nim
cjquines0   2
N 2 hours ago by Mathdreams
Source: Philippines MO 2016/4
Two players, \(A\) (first player) and \(B\), take alternate turns in playing a game using 2016 chips as follows: the player whose turn it is, must remove \(s\) chips from the remaining pile of chips, where \(s \in \{ 2,4,5 \}\). No one can skip a turn. The player who at some point is unable to make a move (cannot remove chips from the pile) loses the game. Who among the two players can force a win on this game?
2 replies
cjquines0
Jan 21, 2017
Mathdreams
2 hours ago
J
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J
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2022 Junior Balkan MO, Problem 1
sarjinius   25
N Yesterday at 4:34 AM by anudeep
Source: 2022 JBMO Problem 1
Find all pairs of positive integers $(a, b)$ such that $$11ab \le a^3 - b^3 \le 12ab.$$
25 replies
sarjinius
Jun 30, 2022
anudeep
Yesterday at 4:34 AM
J
2022 Junior Balkan MO, Problem 1
G H J
Reveal topic tags
positive integers
algebra
number theory
inequalities
L
G H BBookmark kLocked kLocked NReply
Source: 2022 JBMO Problem 1
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sarjinius
239 posts
sarjinius
#1 Jun 30, 2022, 1:09 PM • 2 Y
Y by Stepinac, lian_the_noob12
Find all pairs of positive integers $(a, b)$ such that $$11ab \le a^3 - b^3 \le 12ab.$$
This post has been edited 1 time. Last edited by sarjinius, Jun 30, 2022, 1:54 PM
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BarisKoyuncu
577 posts
BarisKoyuncu
#2 Jun 30, 2022, 1:13 PM • 3 Y
Y by physicskiddo, farhad.fritl, Math_.only.
Clearly, $a>b$.

If $a\ge b+4$, then $a^3-b^3-12ab=3ab(a-b-4)+(a-b)^3>0$, contradiction.

If $a\leq b+2$, then $a^3-b^3-11ab=(a-b)^3-ab(11-3(a-b))\leq 8-5ab\leq -2<0$, contradiction.

Hence, $a=b+3$. This gives us $$11b(b+3)\leq (b+3)^3-b^3\leq 12b(b+3)\Leftrightarrow 9\leq b(b+3)\leq \frac{27}2\Rightarrow b=2$$
So the only solution is $(a,b)=(5,2)$.
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bitrak
935 posts
bitrak
#3 Jun 30, 2022, 9:25 PM • 2 Y
Y by Math_.only., togrul123
I will go step by step.
Attachments:
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JustARandomGuy__
19 posts
JustARandomGuy__
#4 Jun 30, 2022, 9:33 PM • 2 Y
Y by KhayalAliyev, togrul123
because $a > b$, from the inequality $a^3 - b^3 > 3ab(a-b)$ and $a^3 - b^3 \leq 12ab$, we can deduce that $a-b \leq 3$. The rest as above
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Weighted_Dirichlet
2 posts
Weighted_Dirichlet
#5 Jul 1, 2022, 4:17 PM • 2 Y
Y by Nabilos, togrul123
@BarisKoyuncu exactly my solution in exam
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Nabilos
175 posts
Nabilos
#6 Jul 1, 2022, 6:19 PM
Y by
Weighted_Dirichlet wrote:
@BarisKoyuncu exactly my solution in exam
Congratulations
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Vulch
2671 posts
Vulch
#7 Jul 2, 2022, 1:36 AM
Y by
$11ab \le a^3 - b^3 \le 12ab\implies 11ab \le (a-b)((a-b)^2 +3ab)\le 12ab.$
$=11p\le d(d^2 +3p)\le 12p,$ where $p=ab,$ and $d=(a-b).$

Can anybody help me from here?
Z K Y
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Johnweak
32 posts
Johnweak
#8 Jul 2, 2022, 2:48 AM
Y by
bitrak wrote:
I will go step by step.

Nice solution !!
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mihaig
7339 posts
mihaig
#9 Jul 2, 2022, 3:31 AM
Y by
sarjinius wrote:
Find all pairs of positive integers $(a, b)$ such that $$11ab \le a^3 - b^3 \le 12ab.$$

Who was the author?
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mihaig
7339 posts
mihaig
#10 Jul 2, 2022, 2:12 PM
Y by
Hm? ......
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Vulch
2671 posts
Vulch
#11 Jul 3, 2022, 8:01 AM
Y by
Solution:
Attachments:
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parmenides51
30628 posts
parmenides51
#12 Jul 3, 2022, 8:03 AM
Y by
proposed by Croatia
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triangle112
127 posts
triangle112
#13 Jul 4, 2022, 11:34 PM • 4 Y
Y by ihavealotofquestions, Mango247, Mango247, Mango247
Author is Ivan Novak, Croatia
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Iora
194 posts
Iora
#14 Jul 11, 2022, 12:07 AM
Y by
I overcomplicated things again :maybe: Solution
This post has been edited 1 time. Last edited by Iora, Jul 11, 2022, 12:25 AM
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sttsmet
133 posts
sttsmet
#15 Jul 12, 2022, 6:38 AM
Y by
Vulch wrote:
$11ab \le a^3 - b^3 \le 12ab\implies 11ab \le (a-b)((a-b)^2 +3ab)\le 12ab.$
$=11p\le d(d^2 +3p)\le 12p,$ where $p=ab,$ and $d=(a-b).$

Can anybody help me from here?
Sure!
You have $11p-3dp \leq d^3 \leq 12p-3dp$ but $d^3$ is positive, therefore $p(12-3d) > 0 \implies 12 > 3d \implies d \leq 3$
We take cases and the conclusion follows :)
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amogususususus
369 posts
amogususususus
#16 Aug 26, 2022, 7:56 AM
Y by
Clearly $a>b$, let $a=b+x$ with $x\in\mathbb{Z^+}$

$11ab\le a^{3}-b^{3} \le 12ab$
$\Rightarrow 11b^{2}+11bx \le x^{3}+3bx^{2}+3b^{2}x \le12b^{2}+12bx$

For $x\ge4$, $3bx^{2}\ge12bx$ and $3b^{2}x\ge12b^{2}$ $\Rightarrow 3bx^{2}+3b^{2}x\ge12b^{2}+12bx$ which results in contradiction, hence $x\le3$

For $x=1$, $8b^{2}+8b-1\le0$. No positive integer solution exist.

For $x=2$, $5b^{2}+10b-8\le0$. Again, no positive integer solution exist.

For $x=3$, $b^{2}+3b-11\le0$. Only $b=2$ satisfies.

Therefore, the only solution is $(5,2)$.
This post has been edited 2 times. Last edited by amogususususus, Oct 11, 2023, 12:45 PM
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john0512
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john0512
#17 Feb 9, 2023, 7:54 PM
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Note that clearly $a>b$ since $a^3>b^3$. Let $x=a-b$ and $y=ab$ so that they are both positive. Then, $$11y\leq x(x^2+3y)\leq 12y$$$$11\leq \frac{x^3}{y}+3x\leq 12.$$
Case 1: $x=1$. Then $$8\leq \frac{1}{y}\leq 9,$$but this is not satisfied by any positive integer $y$.

Case 2: $x=2$. Then $$5\leq \frac{8}{y}\leq 6,$$but again this is not possible.

Case 3: $x=3$. Then $$2\leq \frac{27}{y}\leq 3,$$and since $y$ is a positive integer, $9\leq y\leq 13.$ However, remember that $a=b+3$, so $y=ab=b(b+3)$ From $9\leq y\leq 13$, only 10 can be expressed as $b(b+3)$, so we must have $x=3,y=10$ so $$(a,b)=(5,2).$$
$x\geq4$ is clearly not possible since $x^3/y$ is positive, so the only solution is $(5,2).$
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andrewthenerd
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andrewthenerd
#18 Apr 29, 2023, 8:54 AM
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$a^3 - b^3 = (a-b)(a^2 + ab + b^2) \leq 12ab$
Since $a^2 + b^2 \geq 2ab,$ hence $(a-b)(3ab) \leq a^3 - b^3 \leq 12ab \implies a-b \leq 4$.
(further noticing that $a^2 + b^2 = 2ab$ iff $a=b$ which is impossible, hence $a^2 + b^2 > 2ab \implies a-b \leq 3)$

Case bash $a-b =1,2,3$ gives the only solution $(a,b)=(5,2)$. QED.
This post has been edited 1 time. Last edited by andrewthenerd, Apr 29, 2023, 8:56 AM
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dancho
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dancho
#19 Jun 21, 2023, 9:19 PM
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Obviosly $a>b$.
Let $a=b+x$ where $x \in \mathbb{N}$.
We get $A=(3x-11)b^2+(3x^2-11x)b+x^3\geq0$ and $B=(3x-12)b^2+(3x^2-12x)b+x^3\leq0$.
Now we will find the discriminant for $b$ in both equations.
$\Delta_A=-x^2(3x^2+22x-121)$ which needs to be less than or equal to zero, because $A\geq0$.
$\Delta_B=-3x^2(x+12)(x-4)$ which needs to be greater than or equal to zero, because $B\leq0$.
Solving $\Delta_A\leq0$ and $\Delta_B\geq0$ in natural numbers we get $x=3$.
Now we need to solve $-2b^2-6b+27\geq0$ and $-3b^2-3b+9\leq0$.
The above has only one solution in natural numbers: $(a,b)=(5,2)$
This post has been edited 3 times. Last edited by dancho, Jun 21, 2023, 9:37 PM
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ehuseyinyigit
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ehuseyinyigit
#20 Nov 14, 2023, 4:47 PM
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Version 1
Find all pairs of positive integers $(a,b)$ such that


$$14ab\leq a^3-b^3\leq 15ab$$
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ehuseyinyigit
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ehuseyinyigit
#21 Nov 14, 2023, 4:48 PM
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Let us realise that this version problem has an equality case which original problem don't.
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ehuseyinyigit
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ehuseyinyigit
#22 Nov 14, 2023, 4:55 PM • 1 Y
Y by Math_.only.
Generalization 1
Prove that for $\lambda \in \left(2,\dfrac{13+3\sqrt{21}}{2}\right)$ reals, the $(a,b)$ positive integer pairs which holds the inequality
$$\lambda ab\leq a^3-b^3\leq \left(\lambda +1\right)ab$$are
$$b\in \left(\dfrac{\left(\lambda -2\right)^3}{27\left(3b+\lambda -2\right)},\dfrac{\left(\lambda -2\right)^3}{18\left(3b+\lambda -2\right)}\right)$$for $b$ between below is $\left(a,b\right)=\left(\dfrac{3b+\lambda -2}{3},b\right)$.
This post has been edited 2 times. Last edited by ehuseyinyigit, Dec 5, 2023, 2:59 PM
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Math_.only.
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Math_.only.
#23 May 24, 2024, 8:39 AM
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Good solution
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banananjin
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banananjin
#25 Dec 2, 2024, 5:16 PM • 2 Y
Y by triangle112, Fibonacci_11235
triangle112 wrote:
Author is Ivan Novak, Croatia

This is false information. Authors of this problem are in fact Borna Banjanin and Tin Salopek. They gave Ivan Novak the idea when he was their university assistant.
This post has been edited 1 time. Last edited by banananjin, Dec 2, 2024, 5:17 PM
Reason: hihi
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eg4334
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eg4334
#26 Jan 9, 2025, 4:27 AM
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We have $11ab \leq (a-b)(a^2+ab+b^2) \leq 12ab$, and $a > b$. By AMGM $(a-b)(a^2+ab+b^2) \geq 3(a-b)ab$ so it follows that $a-b \leq 4$ But equality occurs only when $a=b$ so $a-b=4$ is not possible. We now split into cases. For each case $a=b+1, b=2, b+3$ we obtain a quadratic in $b$ just looking at the left side of the inequality. If $a=b+1$, we have $b \in [ \frac14 (-2-\sqrt{6}), \frac14 (\sqrt{6}-2) ]$, no solutions. If $a=b+2$, we similarly get no solutions. If $a=b+3$, we get $b \in [\frac12(-3-3\sqrt{7}), \frac12 (3\sqrt{7}-3)]$ giving us $b=1, 2$. A finite check gives us only $\boxed{(5, 2)}$ as a solution.
This post has been edited 1 time. Last edited by eg4334, Jan 9, 2025, 4:27 AM
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anudeep
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anudeep
#27 Yesterday at 4:34 AM
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We claim $(5,2)$ is the only pair.

Claim 1. $0<a-b<4$.
Proof. The lower bound is obvious and the upper bound is obtained as,
$$12ab\ge a^3-b^3=(a-b)(a^2+ab+b^2)>(a-b)(3ab).$$
And bashing the heck out of remaining cases yields the required. $\square$

"Life is too short to argue just say trivial by case bash and move on."
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