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Modeling and Simulation of Dynamic Systems (ME 3401)

In this course, students learn how to model systems using differential equations.

Course Introduction
Dynamic Systems Overview
Introduction to Modeling

Modeling an RC Circuit
Modeling a Pendulum

Equivalent spring constant (Part 1)
Equivalent spring constant (Part 2)

Spring mass damper (Part 1)
Spring mass damper (Part 2)
Spring mass damper (Part 3)
Spring mass damper (Part 4)
Poles

Drawing Bode Plot of a Transfer Function (Magnitude), Part 1
Drawing Bode Plot of a Transfer Function (Phase), Part 2
Drawing Bode Plot of a Transfer Function #2

Finding the Transfer function of an OP-Amp Circuit #1
Finding the Transfer function of an OP-Amp Circuit #2

Converting ODE to a Transfer Function
Finding Responses of a 2nd-order Mechanical System
Modeling of a Rack-and-Pinion System

Transfer Function and Bode Plot of OP-Amp Low-Pass Filter
Attenuation of a Signal Using a Low-Pass Filter
Transfer Function and Bode Plot of an OP-Amp High-Pass Filter
Attenuation of a Signal Using a High-Pass Filter

Solving 1st order ODEs
Solving 2nd order ODEs
Solving 1st order ODE with Laplace transforms using pole method

Solving ODEs using MATLAB's ode45 command
Solving ODEs using MATLAB's dsolve command
Solving ODEs using MATLAB's Laplace command
Solving ODEs using MATLAB's Laplace command