Double pendulum | Chaos | Butterfly effect | Computer simulation
A system is considered chaotic if it is highly sensitive on the initial conditions.
If a system is chaotic it doesn't mean that it is random. A chaotic system is completely deterministic. Given enough time and precise initial conditions of the system it would be possible to calculate precisely, how it will evolve.
Given enough time, two identical setups, set to initial conditions that are as identical as possible, will look entirely different.
_________________________________________________________________
Support my animations on:
https://www.patreon.com/Think_twice
_________________________________________________________________
Any further questions or ideas:
Email - thinktwiceask@gmail.com
Twitter - https://twitter.com/thinktwice2580
_________________________________________________________________
Overall render time: ~ 45 hours
Programs used:
- Cinema 4D (3D animation)
- Adobe Premiere Pro (Editing)
- Adobe Animate (Thumbnail)
_________________________________________________________________
Music:
Hvetter:
https://www.youtube.com/watch?v=fDx2FbqKjFI
Sound Cloud:
https://soundcloud.com/hvetter-1
Видео Double pendulum | Chaos | Butterfly effect | Computer simulation канала Think Twice
If a system is chaotic it doesn't mean that it is random. A chaotic system is completely deterministic. Given enough time and precise initial conditions of the system it would be possible to calculate precisely, how it will evolve.
Given enough time, two identical setups, set to initial conditions that are as identical as possible, will look entirely different.
_________________________________________________________________
Support my animations on:
https://www.patreon.com/Think_twice
_________________________________________________________________
Any further questions or ideas:
Email - thinktwiceask@gmail.com
Twitter - https://twitter.com/thinktwice2580
_________________________________________________________________
Overall render time: ~ 45 hours
Programs used:
- Cinema 4D (3D animation)
- Adobe Premiere Pro (Editing)
- Adobe Animate (Thumbnail)
_________________________________________________________________
Music:
Hvetter:
https://www.youtube.com/watch?v=fDx2FbqKjFI
Sound Cloud:
https://soundcloud.com/hvetter-1
Видео Double pendulum | Chaos | Butterfly effect | Computer simulation канала Think Twice
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Ellipse-billiard simulation
butterfly effect - one million double pendulums
What's the big circle on my wall?
Geometry: Viviani's theorem | Visualization + Proof |
Cutting a Möbius strip in half (and more) | Animated Topology |
Sounds of the Mandelbrot Set
Chaos Game | Fractals emerging from chaos | Computer simulation |
Butterfly-effect simulation using 500 double pendulums
Is it Possible to Predict Randomness? The Double Pendulum Experiment
Perfect Shapes in Higher Dimensions - Numberphile
Approximating Pi ( Monte Carlo integration ) | animation
The Surprising Secret of Synchronization
Triple pendulum
Pendulum Wave Toy
Triple and quadruple pendulums at almost the same starting position
Chaos Game - Numberphile
Amazing Science Toys/Gadgets 1
Möbius Strip to Boy Surface and Real Projective Plane
Fractal charm: Space filling curves