Different browsers use different keystrokes to activate accesskey shortcuts. Please reference the following list to use access keys on your system.

Alt and the accesskey, for Internet Explorer on Windows
Shift and Alt and the accesskey, for Firefox on Windows
Shift and Esc and the accesskey, for Windows or Mac
Ctrl and the accesskey, for the following browsers on a Mac: Internet Explorer 5.2, Safari 1.2, Firefox, Mozilla, Netscape 6+.

We use the following access keys on our gateway

k Accesskeys description
h Help
Milwaukee School of Engineering

Oct 19, 2017

# EE 3050 - Dynamic Systems

3 lecture hours 0 lab hours 3 credits
Course Description
This course introduces modeling and analysis techniques of the major types of dynamic engineering systems: mechanical translational, mechanical rotational, electromechanical, and operational amplifier systems. Appropriate methods for analytically solving system differential equations are reviewed. (prereq: EE 2070 , PH 2010 ) (coreq: MA 383 )
Course Learning Outcomes
Upon successful completion of this course, the student will be able to:
• Understand basic components of mechanical and electrical (including ideal operational amplifiers)
• Combine mechanical and electrical (including ideal operational amplifiers) 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
• Recognize the similarity of the response characteristics of various physically dissimiliar systems
• 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
• Draw free body diagrams for static systems
• 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 in the frequency domain
• Modeling in the time domain
• Time response

Coordinator
Karl