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Chaos, Fractals and Dynamical Systems

Curriculum

  • 1 Section
  • 40 Lessons
  • 10 Weeks
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  • Chaos, Fractals and Dynamical Systems
    40
    • 2.1
      Lecture 1: Representations of Dynamical Systems
    • 2.2
      Lecture 2: Vector Fields of Nonlinear Systems
    • 2.3
      Lecture 3: Limit Cycles
    • 2.4
      Lecture 4: The Lorenz Equation – I
    • 2.5
      Lecture 5: The Lorenz Equation – II
    • 2.6
      Lecture 6: The Rossler Equation and Forced Pendulum
    • 2.7
      Lecture 7: The Chua’s Circuit
    • 2.8
      Lecture 8: Discrete Time Dynamical Systems
    • 2.9
      Lecture 9: The Logistic Map and Period doubling
    • 2.10
      Lecture 10: Flip and Tangent Bifurcations
    • 2.11
      Lecture 11: Intermittency Transcritical and pitchfork
    • 2.12
      Lecture 12: Two Dimensional Maps
    • 2.13
      Lecture 13: Bifurcations in Two Dimensional Maps
    • 2.14
      Lecture 14: Introduction to Fractals
    • 2.15
      Lecture 15: Mandelbrot Sets and Julia Sets
    • 2.16
      Lecture 16: The Space Where Fractals Live
    • 2.17
      Lecture 17: Interactive Function Systems
    • 2.18
      Lecture 18: IFS Algorithms
    • 2.19
      Lecture 19: Fractal Image Compression
    • 2.20
      Lecture 20: Stable and Unstable Manifolds
    • 2.21
      Lecture 21: Boundary Crisis and Interior Crisis
    • 2.22
      Lecture 22: Statistics of Chaotic Attractors
    • 2.23
      Lecture 23: Matrix Times Circle : Ellipse
    • 2.24
      Lecture 24: Lyapunov Exponent
    • 2.25
      Lecture 25: Frequency Spectra of Orbits
    • 2.26
      Lecture 26: Dynamics on a Torus
    • 2.27
      Lecture 27: Dynamics on a Torus
    • 2.28
      Lecture 28: Analysis of Chaotic Time Series
    • 2.29
      Lecture 29: Analysis of Chaotic Time Series
    • 2.30
      Lecture 30: Lyapunou Function and Centre Manifold Theory
    • 2.31
      Lecture 31: Non-Smooth Bifurcations
    • 2.32
      Lecture 32: Non-Smooth Bifurcations
    • 2.33
      Lecture 33: Normal from for Piecewise Smooth 2D Maps
    • 2.34
      Lecture 34: Bifurcations in Piecewise Linear 2D Maps
    • 2.35
      Lecture 35: Bifurcations in Piecewise Linear 2D Maps
    • 2.36
      Lecture 36: Multiple Attractor Bifurcation and Dangerous
    • 2.37
      Lecture 37: Dynamics of Discontinuous Maps
    • 2.38
      Lecture 38: Introduction to Floquet Theory
    • 2.39
      Lecture 39: The Monodromy Matrix and the Saltation Matrix
    • 2.40
      Lecture 40: Control of Chaos
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Lecture 26: Dynamics on a Torus
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Lecture 28: Analysis of Chaotic Time Series
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