6-075-LorenzSystemSimulation-ModelingScenario

Vladimir Riabov; Vladimir Riabov; Vladimir Riabov

doi:10.25334/VRWH-5V62

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6-075-LorenzSystemSimulation-ModelingScenario

Author(s): Vladimir Riabov

Rivier University, Nashua NH USA

Keywords: chaos oscillator Lorenz waterwheel strange attractor bifurcation effect

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Abstract

The Lorenz system is examined by students as a simple model of chaotic behavior or strange attractor. MATLAB code is created to find the numerical solutions of the Lorenz’ system of nonlinear ordinary differential equations using various parameters.

Citation

Researchers should cite this work as follows:

Riabov, V. (2022). 6-075-LorenzSystemSimulation-ModelingScenario. SIMIODE, QUBES Educational Resources. doi:10.25334/VRWH-5V62
BibTex | EndNote

Article Context

Resource Type

Modeling Scenario

Differential Equation Type

Technique

Qualitative Analysis

Attractor

Application Area

Course

Course Level

Key Scientific Process Skills

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Pedagogical Approaches

Guided inquiry/investigation

Vision and Change Core Competencies - Ability

Bloom's Cognitive Level

Application & Analysis

Description

Further displayed are the knotted periodic orbits, a saddle-node bifurcation effect, and sensitivity of the solutions to slightly different initial conditions. To demonstrate the system’s chaotic behavior, a waterwheel model animation will be simulated with Java code. The samples of students’ modeling projects are reviewed.

Article Files

6-075-S-LorenzSystemSimulation-StudentVersion.docx(DOCX | 2 MB)
6-075-S-LorenzSystemSimulation-StudentVersion.pdf(PDF | 710 KB)
6-075-T-LorenzSystemSimulation-TeacherVersion.docx (Instructors only)(DOCX | 2 MB)
6-075-T-LorenzSystemSimulation-TeacherVersion.pdf (Instructors only)(PDF | 705 KB)
attrMain.m(M | 299 B )
fLorenz.m(M | 262 B )
Lorenz.java(JAVA | 1 KB)
LorenzEquations.java(JAVA | 706 B )
LorenzPic.jpg(JPG | 8 KB)
Waterwheel.java(JAVA | 3 KB)
WaterWheelPic.jpg(JPG | 18 KB)
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6-075-LorenzSystemSimulation-ModelingScenario

Abstract

Citation

Article Context

Resource Type

Differential Equation Type

Technique

Qualitative Analysis

Application Area

Course

Course Level

Lesson Length

Technology

Approach

Skills

Key Scientific Process Skills

Assessment Type

Pedagogical Approaches

Vision and Change Core Competencies - Ability

Bloom's Cognitive Level

Description

Article Files

Authors

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