Engineering: Electrical Fundamentals Syllabus
Engineering 202: Electrical Fundamentals II
Course Description: Topics covered in this course include: AC and 2nd order transient analysis,
sinusoids and phasors, sinusoidal steady-state analysis, nodal analysis, branch analysis, source
transformations, Thevenin's and Norton's equivalent circuits, sinusoidal steady-state power calculation,
and balanced three-phase circuits.
Course Outcomes
Upon successful completion of this course, students will be able to:
1. Be able to apply Kirchoff's Laws to successfully analyze an AC circuit with both independent and
dependent sources. Be able to check your results for self-consistency.
2. Be able to apply Node-Voltage and Mesh-Current techniques to successfully analyze an AC
circuit with both independent and dependent sources. Op amp and equivalent circuits are a
natural extension of this understanding.
3. Be able to use appropriate tools to describe power use in an AC circuit and distinguish between
real and reactive power.
4. Be able to determine line and phase currents and voltages for any balanced configuration of 3
phase power.
5. Be able to predict the frequency dependent behavior of simple filter through the use of Bode
plots. Demonstrate an understanding of the implications of the Bode plot for the actual behavior
of the circuit
- Subject:
- Applied Science
- Engineering
- Material Type:
- Syllabus
- Author:
- Benjamen N. Taber
- Date Added:
- 03/15/2021