Solving the hardest integral on math stack exchange (cleo's monster integral)
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- เผยแพร่เมื่อ 4 ต.ค. 2024
- Cleo's most famous integral on math stack exchange. It definitely looks like the final boss of integration and the solution development involves a few of my favorite tools so the integration was a wonderful journey indeed.
Rizzy's solution:
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FUNNY CORRECTION: In the factorisation around the 7:50 mark, the roots of the equation are actually (1+i)/2 and (1-i)/2. The reason it doesn't matter and the result is unaffected is because instead of writing the factorisation as (a-x)(b-x), I went for (1-ax)(1-bx) which essentially means I "factored" out a and b leaving behihd their reciprocals as coefficients of x. And the reciprocals of the roots i found are exactly 1-i and 1+i respectively 😂😂😂. Huge shoutout to my buddy on Instagram Naman Sanghi for pointing this out. Thanks mate.
welcome bro! That was a funny yet lucky mistake😂
Umm...
Thanks for that correction
Couldn't sleep because of that last night
But you made my morning :)
Love to see two mistakes cancelling each other out.
@@julianbruns7459 I love the fact that the better I get at advanced math, the worse my basic math skills become.
Worth mentioning that the wrong factoring made you lost a factor of a half, but since you lost this factor for both the numerator and the denominator, this result is unchanged.
After all the errors, they still cancel out
One day we'll understand Cleo.
Does Cleo understand us?
As a long time Flammy viewer and also that one guy who wrote about Fortnite in your community tab, I didn't even consider my hopes of you doing lengthy beautiful integarahls would be fulfilled by virtue of a solution to this absolute beast we call the 'master of integration' :)
I'm glad this solution is on youtube
There are so many strategies involved in this!
Incredible integral, still unbelieable that it comes out to be this nice
The best 1. April joke from FlammableMath
And here I am solving it for real I mean for complex😎
Our man of integrity delivers! 😅🎉🤩
Thanks, I really enjoyed the process of solving this integral, You are one of the reasons behind my love for math...
Thanks mate
Mind-blowing and breathtaking
Watched it on x2 because of the length and it was awesome
Greatly spended time watching and analyzing
24:47 For any analytic function that is real on the real axis, we have f(z*) = f(z)*, where asterisk means complex conjugate. This is because the coefficients of the power series are real.
Waarschijnlijk 😢😮
This time you really blew me out! I've got scratch marks on my head now... :D I was like OK, let's see what infinite series we will introduce or when will the Gamma, Beta pop up... The complex world was a pleasant surprise...
Especially the introduction of the I(α) was genius! It really needs a good eye and long experience to be able to come up with a "reverse engineered" solution like that. I will have to go over this integral multiple times to be able to really digest and appropriate it. I wonder what other approaches there may be. It would be VERY interesting if you come up with a different method and make a video on it when you find the time... In any case, a great THANKS for this. I really enjoyed it.
Well this one took me 2 days so it'll be a while before I come up with something else 😂
Very interesting monster integral. Thank you for your fruitful effort.
crazy intergral buff
To fully understand what you did, i had to watch this the second time and take notes. This is truly an unbelievable solution!
You should check out the one I linked in the description box. It's a bit more generalized and the evaluation of inverse sine functions is alot cooler.
That was phenomenal!
Finally I found the solution of this integral.
This feels like a workout at the gym 😅
This is a high intensity leg day🔥🔥
Ah, yes, the legendary integral solved by Ron Gordon. Great integral.
Amazing, hey bro couuld you make a video explaining the Maxwell equations, I know there are a lot of videos about that but I like how you explain
Aight
The Goat
Hi,
"terribly sorry about that" : 1:43 , 1:49 , 4:35 , 15:50 , 17:20 , 20:54 , 24:01 , 24:13 , 27:46 ,
"sorry about that" : 10:28 , 11:38 ,
"ok, cool" : 2:03 , 2:41 , 4:17 , 6:17 , 7:46 , 15:05 , 21:32 , 22:21 .
@@CM63_France been waiting for this all day
My literal reaction: "What is this unholy beast on my floor?"
Hard to follow in some parts, but what an amazing result.
19:34 definitely the best reason to buy a new phone 😂😂
i saw it coming the second you wrote down sqrt(5)
Excelente el video
this was awesome
I’m watching this at 3am on the day of our general election - something is most definitely wrong with me
İmagine this question in final exam of university 💀
This is a whole movie
@@Akhulud a cinematic masterpiece
@@maths_505 you'd have multiple Oscars if we took into account all your videos (maybe not the bad accents)
there has to be a simpler way
holy shit
I like this one
I like the pinned comment more😭
@@maths_505))) i should have noticed
In 7:51 shouldn't it be (2-α*sen(t))(2-β*sen(t)) since (1+t)(1-t)=2?
See the pinned comment for a nice laugh my friend.
Trying to understand why I should buy a new phone was harder than the problem itself 😂😂😂😂
😂😂😂
Heavy duty!
how did the fraction in natural log simplify to (1 - αsin(x)) at 8:52
@@JasonLeung-s4c see the pinned comment
At 9:00 How on earth did you get the cancellation of the terms of the numerator and denominator to arrive at I(a)=Int (1/(sinx))*ln(1-asinx)dx)?
That was just the integral function defined to apply Feynman's trick.
@@maths_505 My bad. I should have waited longer for the moment you apply the result in the video
It's cool😂
It's not very hard. I too solved it exactly this way. Just that I used king's symmetric rule and changed limits from ( - 1 to 1) to( 0 to 1) and solved this
int 0 to pi/2, 2/sinx ln{ (2sin^2 x + 2sinx +1)/(2sin^2 x - 2sinx +1)} dx
Can you write your solution?
@@aryan-oe4ep actually the same as his but I used this property
int - c to c, f(x) dx
= int 0 to c, (f(x) +f(-x)) dx
This is it... The rest is similar
What’s your software for writing all this?
Samsung notes on my S6 tab
Far beyond my tiny level i am genualy terrified 💀😥
🐐
More 30 minute long videos
Oi, don’t judge!😂
🎉🎉 Abs(a*mAz/i+NG) 😂😂👍🏼😎
😭
i smashed my phone, can you buy me a new one?
@@Tosi31415 need more patreon supporters for that 😭😭
too difficult for me, sorry
final boss