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Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
---|---|---|---|---|---|---|
System Dynamics and Modeling | TEM349 | Elective | Bachelor's degree | 3 | Fall | 4 |
Assistant Prof. Dr. Meral ALTINAY
1) learn basic concepts about system dynamics and modeling.
2) know frequency and time domain modelling techniques of dynamic systems.
3) perform simulations of dynamical systems including basic programming skills.
4) analyze behavior of a dynamical system
5) apply linearization technique to analyze a nonlinear system
Program Competencies | |||||||||||||||||||||||||||||||
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 | ||
Learning Outcomes | |||||||||||||||||||||||||||||||
1 | Low | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | Low | No relation | No relation | No relation | No relation | No relation | No relation | |
2 | Low | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | Middle | No relation | No relation | No relation | No relation | No relation | No relation | |
3 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | Low | No relation | No relation | No relation | No relation | No relation | No relation | |
4 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | High | No relation | No relation | No relation | No relation | No relation | No relation | |
5 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation |
Face to Face
None
Not Required
Fundamental Concepts of System Dynamics and Modeling, Complex Numbers and Laplace Transformation, Transfer Functions and Block Diagrams, Mechanical Systems, Electrical and Electromechanical Systems, Fluid Systems, Magnetic Systems, Linearization of Nonlinear Systems, Transient and Steady State Response of Dynamical Systems, Frequency Response, Simulation in Matlab/Simulink Environment.
1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Demonstration
6) Modelling
7) Group Study
8) Simulation
9) Lab / Workshop
10) Self Study
11) Problem Solving
12) Project Based Learning
Contribution of Midterm Examination to Course Grade |
40% |
---|---|
Contribution of Final Examination to Course Grade |
60% |
Total |
100% |
Turkish
Not Required