Master's and PhD Degrees / Courses / Course DescriptionsGEN_ENG 205-3: EA3
Master's and PhD Degrees
/ Courses
/ Course Descriptions
VIEW ALL COURSE TIMES AND SESSIONS
Prerequisites
C- or better in 205-2Description
Dynamic behavior of the elements. Modeling of mechanical (both translational and rotational), electrical, thermal, hydraulic, and chemical systems composed of those elements.
Fall Instructors
Cheng Sun Sec 20 MTWF 3-3:50Ken Park Sec 21 MTWTh 1-1:50
Learning Objectives
Students will be able to model dynamic systems in several domains, focusing on mechanical and electrical systems. Students will apply analytical and computational techniques of solution to study the motion of these systems.
Functional Outcomes
Students will:
- Learn to associate physical phenomena and their mathematical description.
Learn understand that the same mathematical equations can model different physical phenomena.- Model mechanical systems using mechanical diagrams and free body diagrams.
- Apply appropriate simplifications to models.
- Model electrical systems using circuit diagrams.
- Reduce modeled systems to systems of differential equations.
- Solve and describe the solution of equations of motion using analytic as well as computational techniques.
- Apply eigenvalue analysis to systems with multiple degrees of freedom.
Textbook
None