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Nov 26, 2024
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EE 3051B - Dynamic Systems4 lecture hours 0 lab hours 4 credits Course Description This course introduces modeling and analysis techniques of the major types of dynamic engineering systems: mechanical translational, mechanical rotational, thermal, electromechanical, fluid, and operational amplifier systems. Appropriate methods for analytically solving system differential equations are reviewed. (prereq: EE 3002B or EE 2070 , PH 113 or PH 2010 ) (coreq: MA 383 ) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Represent a mechanical system using free body diagrams.
- Understand basic components of dynamic mechanical and electrical systems.
- Combine mechanical and electrical (including DC motors) components into systems.
- Formulate mechanical, electrical, and mixed discipline systems into appropriate differential equation models including state space models
- Analyze systems for dynamic time-domain response and for frequency response
- Predict system response using analytic methods
Prerequisites by Topic
- Linear differential equation solution techniques
- Transient analysis of series and parallel RLC circuits
- Laplace transform analysis of circuits
- Transfer functions
- Electric circuit frequency response
- Identify forces related to each other through Newton’s 3rd Law of Motion
- Apply the principles of Conservation of Energy and Conservation of Linear Momentum to solve problems
Course Topics
- Modeling translational and rotational dynamic systems in the time domain
- Modeling translational and rotational dynamic systems in the frequency domain
- Time response of 2nd order mechanical systems
- State-space representation of systems
Coordinator Richard Kelnhofer
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