- 834
- 717 558
Maciej Matyka
Poland
Приєднався 20 сер 2006
Computer simulations in physics, codes, tutorials, lectures, animations and all other stuff I've coded now and then. If you like to know more have a look at my blog
maciejmatyka.blogspot.com/ and homepage
panoramx.ift.uni.wroc.pl/~maq/eng/index.php
maciejmatyka.blogspot.com/ and homepage
panoramx.ift.uni.wroc.pl/~maq/eng/index.php
1000 Septenvigintuple Pendulums
27 segment pendulums with slightly different initial conditions
Переглядів: 22
Відео
Sexvigintuple Pendulums
Переглядів 144 години тому
1000 26-segment pendulums, with slightluy different initial conditions are swinging in gravity field and show chaos and butterfly effect. With Jazz music in the background. #chaostheory #jazz #music #swing #simulation #pendulums #doublependulums #chaos #butterflyeffect
![1000 Quinvigintuple Pendulums [LONG]](http://i.ytimg.com/vi/mCOxs1GtaRc/mqdefault.jpg)
Quattuorvigintuple Pendulums
Переглядів 307 годин тому
Chaos (butterfly effect) with 1000 pendulums build of 24 segments.
Butterfly effect with 1000 duovigintuple pendulums #chaos #physics #butterflyeffect
Переглядів 3412 годин тому
22 segments
1000 unvigintuple pendulums (21 segments) #chaos #butterflyeffect #physics
Переглядів 1714 годин тому
1000 unvigintuple pendulums (21 segments) #chaos #butterflyeffect #physics
1000 vigintuple pendulums (20 segments) #chaos #butterflyeffect #physics
Переглядів 3716 годин тому
1000 vigintuple pendulums (20 segments) #chaos #butterflyeffect #physics
1000 novemdecuple pendulums #butterflyeffect #chaos #simulation
Переглядів 3819 годин тому
novemdecuple = 19 segments
Butterfly Effect with 1000 septendecuple (17-segments) pendulums
Переглядів 10519 годин тому
...this technique allows for multiple segment pendulums
Butterfly effect with 1000 octodecuple pendulums - [comparison of separation distance]
Переглядів 110День тому
2 = double * 3 = triple * 4 = quadruple * 5 = quintuple * 6 = sextuple * 7 = septuple * 8 = octuple * 9 = nonuple * 10 = decuple * 11 = undecuple * 12 = duodecuple * 13 = tredecuple * 14 = quattuordecuple * 15 = quindecuple * 16 = sexdecuple * 17 = septendecuple 18 = octodecuple 19 = novemdecuple 20 = vigintuple 21 = unvigintuple 22 = duovigintuple 23 = trevigintuple 24 = quattuorvigintuple 25 ...
Butterfly effect (chaos) with 1000 x 14-segment (quattuordecuple) pendulums
Переглядів 69День тому
Butterfly effect (chaos) with 1000 x 14-segment (quattuordecuple) pendulums
Position Based Dynamics (Chaotic Pendulums)
Переглядів 9914 днів тому
Position Based Dynamics (Chaotic Pendulums)
Three Body Problem - long & chaotic trajectory
Переглядів 2392 місяці тому
Three Body Problem - long & chaotic trajectory
The Four-Body problem [many configurations]
Переглядів 1952 місяці тому
The Four-Body problem [many configurations]
The idea: three-body 8-looped-config in moving frame of reference (centered at one mass)
Переглядів 462 місяці тому
The idea: three-body 8-looped-config in moving frame of reference (centered at one mass)
A remarkable periodic solution of the three-body problem in the case of equal masses
Переглядів 1,2 тис.2 місяці тому
A remarkable periodic solution of the three-body problem in the case of equal masses
Butterfly Effect with 2000 Duodecuple Pendulums HD
Переглядів 1,1 тис.3 місяці тому
Butterfly Effect with 2000 Duodecuple Pendulums HD
Butterfly Effect with 2000 Nonuple Pendulums HD
Переглядів 1,8 тис.3 місяці тому
Butterfly Effect with 2000 Nonuple Pendulums HD
Butterfly Effect with 2000 Octuple Pendulums HD
Переглядів 1123 місяці тому
Butterfly Effect with 2000 Octuple Pendulums HD
Butterfly Effect with 2000 undecuple Pendulums
Переглядів 1713 місяці тому
Butterfly Effect with 2000 undecuple Pendulums
Butterfly Effect with 2000 Decuple Pendulums
Переглядів 1303 місяці тому
Butterfly Effect with 2000 Decuple Pendulums
i love having MASSIVE POPUPS to completely obfuscate the ENTIRE LAST PART of the video bloody perfect job youtube, once again, you suck. great fractal art btw cool af pity i cant enjoy it properly through no fault of myself or the uploaders
what exactly is not right?
@@maciejmatyka not you, i get these massive "watch this video" thumbnails right after the last segment starts so i can actually see anything. its all youtubes issue,.
@xaracen7207 it's me, I've chosen this, and I think I can remove that as well...
@@xaracen7207 Actually I was able to easily remove that thumbnails. Enjoy the full experience! :)
@@maciejmatykaso you have! i thought uploaders didnt have control over this! many thanks! and it is very beautiful
i justw wet myself
please post a link for the full resolution video download 🥹🥹 also may you share what program you used to create this?😊
I just saw the Github link, thank you ❤
Neat
The moth
This really looks like natural patron emerging from scratch
Outstanding! You just showed how to form the Celtic knot (14 seconds) from three circles inside the Koch fractal! Which is one of the modalities of the torus. Fantastic work!
So beautiful, thanks for helping me visualize it
Thank you so much for helping me visualize it
Impressive at 1/4 speed.
What was the initial increment in position for the 2000 variations? It appeared to be about 1 pixel, or less, across all variations.
Way, way less than 1 in pixel coordinates. Don't have code in front of me but I bet at least 10^-5
z = z²
Przypomniała mi się mejoza i mitoza z lekcji biologii. 😂
Balloon shark agents when?
Alan Turing Morphogenesis. Niiiice
Far more realistic than the majority of pendulum videos, thank you!
Were is this
RETURN OF BLOB !!
Beautiful! ❤
I like this blob
Finally! A person who made this!
Its edging
Masz talent
Music 🤢🤮
When I search for "harry balls" THIS is what I'm hoping to find.
What are the actual harry balls?:)
Ty to napisałes???
No tak, a kto pyta?:)
Wbat is this for?
What was the ODE?
3 bound bodies becomes 2 more tightly bound bodies and a projectile. very nice.
Fascinating. I wonder what the max velocity of a given node is as a function of n?
where can i find this game?
On my website
no there are 0.9999999 * 10^7 pendulums... I counted them
POV: your mantis shrimp is tryna tell ya something but you cant see that spectrum of colour
What's most interesting for me is that there are two groups of pendulums that split away from each other first. It can be seen for example at around 2:02, with the blue and orange groups. Seems like there is a single step in the initial conditions that causes a rapid divide.
Nice, thx. I think that may be the 0 group on left and group on right that were initially deviated from 0 angle
That's a ⛓️
10 million this easy? I wanna see 100,000 for 1 hour
sure, I can do 1 hour of 100,000 pendulums, the thing is they get chaotic and the video doesn't really show anything spectacular...
Awesome!
That is too much pendulums.
5:30 best part
how did you made these ?
This is computer simulation done with my own codes
@@maciejmatyka Language ?
C++
@@maciejmatyka do you have discord server or something ?
Facebook?
pov : your making the windows 11 backgrounds
chopin! I love you so much!
Something is inaccurate about these orbits. When one of the three is way off screen, the other two should drop into ellipses around their common center of mass, (the normal, 2 body solution) But yours do something more complicated, I think.
True, this solution is numerical plus I ide softening factor to make them more stable
I bet there are (10^7) + 1 and he’s lying to us.
i think thats 100M
im watching this on my phone but my pc started heating up out of fear
DESIDRATEM!
Почему они не сталкиваются?
Now add one more planet in the mix
You mean the 4 body problem?:)
The beauty of the chaotic, yet calcuable results, of the pendulums is nothing short of breathtaking.
Where my Stable Eras at?