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k a April Highlights and 2025 AoPS Online Class Information
jlacosta   0
Apr 2, 2025
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0 replies
jlacosta
Apr 2, 2025
0 replies
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Inequalities
sqing   7
N an hour ago by anduran
Let $ a,b,c> 0 $ and $ ab+bc+ca\leq 3abc . $ Prove that
$$ a+ b^2+c\leq a^2+ b^3+c^2 $$$$ a+ b^{11}+c\leq a^2+ b^{12}+c^2 $$
7 replies
sqing
Yesterday at 1:54 PM
anduran
an hour ago
J
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Geometry Angle Chasing
Sid-darth-vater   2
N 2 hours ago by Sid-darth-vater
Is there a way to do this without drawing obscure auxiliary lines? (the auxiliary lines might not be obscure I might just be calling them obscure)

For example I tried rotating triangle MBC 80 degrees around point C (so the BC line segment would now lie on segment AC) but I couldn't get any results. Any help would be appreciated!
2 replies
Sid-darth-vater
Monday at 11:50 PM
Sid-darth-vater
2 hours ago
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Equation over a finite field
loup blanc   1
N 3 hours ago by alexheinis
Find the set of $x\in\mathbb{F}_{5^5}$ such that the equation in the unknown $y\in \mathbb{F}_{5^5}$:
$x^3y+y^3+x=0$ admits $3$ roots: $a,a,b$ s.t. $a\not=b$.
1 reply
loup blanc
6 hours ago
alexheinis
3 hours ago
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Absolute value
Silverfalcon   8
N 4 hours ago by zhoujef000
This problem seemed to be too obvious.. And I think I"m wrong.. :D

Problem:

Consider the sequence $x_0, x_1, x_2,...x_{2000}$ of integers satisfying

\[x_0 = 0, |x_n| = |x_{n-1} + 1|\]

for $n = 1,2,...2000$.

Find the minimum value of the expression $|x_1 + x_2 + ... x_{2000}|$.

My idea

Pretty sure I'm wrong but where did I go wrong?
8 replies
+1 w
Silverfalcon
Jun 27, 2005
zhoujef000
4 hours ago
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Integration Bee Kaizo
Calcul8er   51
N 4 hours ago by BaidenMan
Hey integration fans. I decided to collate some of my favourite and most evil integrals I've written into one big integration bee problem set. I've been entering integration bees since 2017 and I've been really getting hands on with the writing side of things over the last couple of years. I hope you'll enjoy!
51 replies
Calcul8er
Mar 2, 2025
BaidenMan
4 hours ago
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Tetrahedrons and spheres
ReticulatedPython   3
N 5 hours ago by vanstraelen
Let $OABC$ be a tetrahedron such that $\angle{AOB}=\angle{AOC}=\angle{BOC}=90^\circ.$ A sphere of radius $r$ is circumscribed about tetrahedron $OABC.$ Given that $OA=a$, $OB=b$, and $OC=c$, prove that $$r^2+\frac{1}{a}+\frac{1}{b}+\frac{1}{c} \ge \frac{9\sqrt[3]{4}}{4}$$with equality at $a=b=c=\sqrt[3]{2}.$
3 replies
ReticulatedPython
Monday at 6:39 PM
vanstraelen
5 hours ago
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interesting integral
Martin.s   1
N Yesterday at 2:46 PM by ysharifi
$$\int_0^\infty \frac{\sinh(t)}{t \cosh^3(t)} dt$$
1 reply
Martin.s
Monday at 3:12 PM
ysharifi
Yesterday at 2:46 PM
J
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Two times derivable real function
Valentin Vornicu   10
N Yesterday at 2:04 PM by Rohit-2006
Source: RMO 2008, 11th Grade, Problem 3
Let $ f: \mathbb R \to \mathbb R$ be a function, two times derivable on $ \mathbb R$ for which there exist $ c\in\mathbb R$ such that
\[ \frac { f(b)-f(a) }{b-a} \neq f'(c) ,\] for all $ a\neq b \in \mathbb R$.

Prove that $ f''(c)=0$.
10 replies
Valentin Vornicu
Apr 30, 2008
Rohit-2006
Yesterday at 2:04 PM
J
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Find the volume of the solid
r02246013   3
N Yesterday at 12:36 PM by Mathzeus1024
Find the volume of the solid bounded by the graphs of $z=\sqrt{x^2+y^2}$, $z=0$ and $x^2+y^2=25$.
3 replies
r02246013
Dec 16, 2017
Mathzeus1024
Yesterday at 12:36 PM
J
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Find the greatest possible value of the expression
BEHZOD_UZ   0
Yesterday at 11:56 AM
Source: Yandex Uzbekistan Coding and Math Contest 2025
Let $a, b, c, d$ be complex numbers with $|a| \le 1, |b| \le 1, |c| \le 1, |d| \le 1$. Find the greatest possible value of the expression $$|ac+ad+bc-bd|.$$
0 replies
BEHZOD_UZ
Yesterday at 11:56 AM
0 replies
J
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high school math
aothatday   8
N Yesterday at 1:09 AM by EthanNg6
Let $x_n$ be a positive root of the equation $x^n=x^2+x+1$. Prove that the following sequence converges: $n^2(x_n-x_{ n+1})$
8 replies
aothatday
Apr 10, 2025
EthanNg6
Yesterday at 1:09 AM
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Why is this series not the Fourier series of some Riemann integrable function
tohill   1
N Monday at 11:53 PM by alexheinis
$\sum_{n=1}^{\infty}{\frac{\sin nx}{\sqrt{n}}}$ (0<x<2π)
1 reply
tohill
Monday at 8:08 AM
alexheinis
Monday at 11:53 PM
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Research Opportunity
dinowc   0
Monday at 10:17 PM
Hi everyone, my name is William Chang and I'm a second year phd student at UCLA studying applied math. Over the past year, I've mentored many undergraduates at UCLA to finished papers (currently under review) in reinforcement learning (see here. :juggle:)

I'm looking to expand my group (and the topics I'm studying) so if you're interested, please let me know. I would especially encourage you to reach out to me chang314@g.ucla.edu if you like math. :wow:
0 replies
dinowc
Monday at 10:17 PM
0 replies
J
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Computational Calculus - SMT 2025
Munmun5   3
N Monday at 9:58 PM by alexheinis
Source: SMT 2025
1. Consider the set of all continuous and infinitely differentiable functions $f$ with domain $[0,2025]$ satisfying $$f(0)=0,f'(0)=0,f'(2025)=1$$and $f''$ is strictly increasing on $[0,2025]$ Compute smallest real M such that all functions in this set ,$f(2025)<M$ .
2. Polynomials $$A(x)=ax^3+abx^2-4x-c$$$$B(x)=bx^3+bcx^2-6x-a$$$$C(x)=cx^3+cax^2-9x-b$$have local extrema at $b,c,a$ respectively. find $abc$ . Here $a,b,c$ are constants .
3. Let $R$ be the region in the complex plane enclosed by curve $$f(x)=e^{ix}+e^{2ix}+\frac{e^{3ix}}{3}$$for $0\leq x\leq 2\pi$. Compute perimeter of $R$ .
3 replies
Munmun5
Monday at 9:35 AM
alexheinis
Monday at 9:58 PM
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geometry parabola problem
smalkaram_3549   10
N Apr 13, 2025 by ReticulatedPython
How would you solve this without using calculus?
10 replies
smalkaram_3549
Apr 11, 2025
ReticulatedPython
Apr 13, 2025
J
geometry parabola problem
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Reveal topic tags
geometry
conics
parabola
calculus
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smalkaram_3549
168 posts
smalkaram_3549
#1 Apr 11, 2025, 9:52 PM • 1 Y
Y by Kizaruno
How would you solve this without using calculus?
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ShadowDragonRules
374 posts
ShadowDragonRules
#2 Apr 11, 2025, 10:12 PM • 1 Y
Y by Kizaruno
hmm... I would suggest to find a relationship of graphing this through first finding the parabola's graph to find the eventual diameter. BTW
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mathmax001
14 posts
mathmax001
#3 Apr 11, 2025, 11:15 PM • 1 Y
Y by Kizaruno
smalkaram_3549 wrote:
How would you solve this without using calculus?

is it $ R=\frac{\sqrt{11}}{2} $ ?
I found it solving a quadratic equation.
This post has been edited 1 time. Last edited by mathmax001, Apr 11, 2025, 11:16 PM
Reason: mistype
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rchokler
2966 posts
rchokler
#4 Apr 11, 2025, 11:42 PM
Y by
Solution 1:

$y'=2x$, so the normal line through $(a,a^2)$ is $y=a^2-\frac{x-a}{2a}$,

Put $(x,y)=(0,3)$ to get $a^2+\frac{1}{2}=3\implies a^2=\frac{5}{2}$.

So the points of tangency are $\left(\pm\frac{\sqrt{10}}{2},\frac{5}{2}\right)$.

$r=\sqrt{\left(\frac{\sqrt{10}}{2}-0\right)^2+\left(\frac{5}{2}-3\right)^2}=\sqrt{\frac{5}{2}+\frac{1}{4}}=\frac{\sqrt{11}}{2}$.

Solution 2:

$r(t)=\text{dist}[(0,3),(t,t^2)]=\sqrt{t^2+(t^2-3)^2}=\sqrt{t^4-5t^2+9}=\sqrt{\left(t^2-\frac{5}{2}\right)^2+\frac{11}{4}}\geq\frac{\sqrt{11}}{2}$ with equality when $t^2=\frac{5}{2}$.
This post has been edited 1 time. Last edited by rchokler, Apr 11, 2025, 11:43 PM
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smalkaram_3549
168 posts
smalkaram_3549
#5 Apr 12, 2025, 12:05 AM • 1 Y
Y by Kizaruno
mathmax001 wrote:
smalkaram_3549 wrote:
How would you solve this without using calculus?

is it $ R=\frac{\sqrt{11}}{2} $ ?
I found it solving a quadratic equation.

yes it is. How did you do that? I got it using calculus but can't figure out the algebraic method
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joeym2011
493 posts
joeym2011
#6 Apr 12, 2025, 12:25 AM
Y by
We let the circle equation be $x^2+(y-3)^2=r^2$. We can solve for $y$:
$$y^2-6y+9+y=r^2.$$Due to tangency, there is only one solution of $y$, and we have a double root and
$$5^2=4\left(9-r^2\right)\implies r=\boxed{\frac{\sqrt{11}}2}.$$@rchokler's solution 2 is also algebraic and works well.
This post has been edited 1 time. Last edited by joeym2011, Apr 12, 2025, 12:26 AM
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ReticulatedPython
579 posts
ReticulatedPython
#7 Apr 12, 2025, 12:33 AM
Y by
Solution
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mathmax001
14 posts
mathmax001
#8 Apr 12, 2025, 7:30 PM
Y by
ReticulatedPython wrote:
Solution

This is exactly the method I used .

If you don't understand the meaning of this sentence " Since we want the roots to be negations of each other, the discriminant is equal to $0.$ " , I'll explain it more :
If the discriminant $ 5^2-4(9-r^2) $ were $ \neq 0 $ then the equation would have 2 different solutions for $ x^2 $ ( because the discriminant is positive ) , that means four 4 points of tangency which is not true .
This post has been edited 2 times. Last edited by mathmax001, Apr 12, 2025, 7:41 PM
Reason: addendum
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jb2015007
1916 posts
jb2015007
#9 Apr 12, 2025, 7:41 PM • 2 Y
Y by Kizaruno, ReticulatedPython
sol

also hi reticulated python!

also sorry for a bad sol
i didnt have time to explain everything clearly
This post has been edited 1 time. Last edited by jb2015007, Apr 12, 2025, 7:42 PM
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smbellanki
180 posts
smbellanki
#11 Apr 13, 2025, 3:40 AM
Y by
The equation of the circle is \( x^2 + (y - 3)^2 = r^2 \). Subbing in \( y = x^2 \) to find the intersection gets \( x^2 + (x^2 - 3)^2 = r^2 \) which is \( x^4 - 5x^2 + 9 - r^2 = 0 \) now since, the circle only intersects the parabola twice there must be 2 double roots so we consider the determinant which is \( 5^2 - 4(9 - r^2) = 0 \) which becomes \( 4r^2 - 11 = 0 \) so \( r = \sqrt{11}/2 \) only since the radius can't be negative.
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ReticulatedPython
579 posts
ReticulatedPython
#12 Apr 13, 2025, 2:05 PM
Y by
jb2015007 wrote:
sol

also hi reticulated python!

also sorry for a bad sol
i didnt have time to explain everything clearly

Looks good to me!
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