Chaotic maps | Dynamical systems
In physics and mathematics, in the area of dynamical systems, a double pendulum also known as a chaos pendulum is a pendulum with another pendulum attached to its end, forming a simple physical system that exhibits rich dynamic behavior with a strong sensitivity to initial conditions. The motion of a double pendulum is governed by a set of coupled ordinary differential equations and is chaotic. (Wikipedia).
Footnote †: Double Pendulums Are Crazy
A footnote to the video about Neutrino Shape-Shifting: https://youtu.be/7fgKBJDMO54 Sixty Symbols Video on Double Pendulum: https://www.youtube.com/watch?v=izy4a5erom8 Physics of The Double Pendulum: http://www.theorphys.science.ru.nl/people/fasolino/sub_java/pendula/doublependul-en.shtm
From playlist MinutePhysics
Coding Challenge #93: Double Pendulum
In this coding challenge, I simulate a "double pendulum" in Processing (Java). 💻Challenge: https://thecodingtrain.com/CodingChallenges/093-double-pendulum.html Links discussed in this video: 🔗 Physics Lab Double Pendulum: https://www.myphysicslab.com/pendulum/double-pendulum-en.html 🎥
From playlist Coding Challenges
What can the physics of a double pendulum teach us about life? My Patreon Page is at https://www.patreon.com/EugeneK
From playlist Physics
Simple Harmonic Motion (2 of 16): Pendulum, Calculating Period, Frequency, Length and Gravity
In this video I go over five example problems for calculating the period, frequency, length and acceleration due to gravity for a simple pendulum. A pendulum is a mass suspended from a string that is attached to pivot point. There is no friction so that the pendulum can swing freely. When
From playlist Simple Harmonic Motion, Waves and Vibrations
Simple Harmonic Motion (1 of 16): Period of a Pendulum
This video uses one of the simulations from PhET Interactive Simulation to investigate how changing the mass, length, displacement and gravity of the pendulum affects its period. A pendulum is a mass suspended from a string that is attached to pivot point. There is no friction so that the
From playlist Simple Harmonic Motion, Waves and Vibrations
Solution to Problem 112 - Double Pendulum
Two Coupled Oscillators
From playlist Solutions to Bi-weekly Physics Problems
Have you ever wondered what a double integral is and what it has to do with cake? If so, watch this video and find out. Here I show step-by-step how to calculate a double integral, which is the multivariable calculus analog of an integral, enjoy! Double and Triple Integrals: https://www.y
From playlist Double and Triple Integrals
Lecture: Application of Runge-Kutta to Chaotic Dynamics and the Double Pendulum
We finish by considering the physical application of a double pendulum and a numerical model for its motion, demonstrating the chaotic behavior induced in the motion.
From playlist Beginning Scientific Computing
Lagrangian and Hamiltonian Mechanics in Under 20 Minutes: Physics Mini Lesson
There's a lot more to physics than F = ma! In this physics mini lesson, I'll introduce you to the Lagrangian and Hamiltonian formulations of mechanics. Get the notes for free here: https://courses.physicswithelliot.com/notes-sign-up When you take your first physics class, you learn all ab
From playlist Short Videos
ME564 Lecture 20: Chaos in ODEs (Lorenz and the double pendulum)
ME564 Lecture 20 Engineering Mathematics at the University of Washington Chaos in ODEs (Lorenz and the double pendulum) Course Website: http://faculty.washington.edu/sbrunton/me564/ http://faculty.washington.edu/sbrunton/
From playlist Engineering Mathematics (UW ME564 and ME565)
Everything You Need To Know About Pendulums: Physics Help Room
Pendulums are simple systems that can teach us a ton of interesting physics. In this intro physics help room video, I'll give you a crash course in the most important things to understand about pendulums. Get the notes for free here: https://courses.physicswithelliot.com/notes-sign-up Get
From playlist Physics Help Room
Download the free PDF http://tinyurl.com/EngMathYT This video shows how to integrate over rectangles. The ideas use double integrals and are seen in university mathematics.
From playlist Several Variable Calculus / Vector Calculus
Lecture 7 | MIT 6.832 Underactuated Robotics, Spring 2009
Lecture 7: Swing-up control of acrobot and cart-pole systems Instructor: Russell Tedrake See the complete course at: http://ocw.mit.edu/6-832s09 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 6.832 Underactuated Robotics, Spring 2009
Lecture 5 | Modern Physics: Classical Mechanics (Stanford)
Lecture 5 of Leonard Susskind's Modern Physics course concentrating on Classical Mechanics. Recorded November 12, 2007 at Stanford University. This Stanford Continuing Studies course is the first of a six-quarter sequence of classes exploring the essential theoretical foundations of mo
From playlist Course | Modern Physics: Classical Mechanics
الاهتزازات والأمواج (جامعة إم آي تي) - المحاضرة 6: المذبذبات المزدوجة المُنقادة وقاعدة "كرامر"
MIT المحاضرة السادسة من مساق "الاهتزازات والأمواج" من جامعة إم آي تي للبروفيسور والتر لوين وهي عن المذبذبات المزدوجة المُنقادة وقاعدة كرامر بالإضافة للفيديو هناك ملفات مرفقة على موقعنا الالكتروني: https://shamsunalarabia.net/courses/الاهتزازات-والأمواج/ رابط المساق https://www.youtube.com
From playlist 8.03 Arabic Subtitles
This video introduces chaotic dynamical systems, which exhibit sensitive dependence on initial conditions. These systems are ubiquitous in natural and engineering systems, from turbulent fluids to the motion of objects in the solar system. Here, we discuss how to recognize chaos and how
From playlist Engineering Math: Differential Equations and Dynamical Systems
In this video i show pendulum resonance for different length of the rope of pendulum.
From playlist MECHANICS