SYLLABUS

 

ENGIN 231: Circuit Analysis I         3 Credits

 

 

PREREQUISITE: Sophomore Standing

 

 

TEXT:             Basic Engineering Circuit Analysis, 8th Edition,

                        J. David Irwin, Prentice Hall

 

 

OBJECTIVE:

 

            This is the first of the two circuitry theory course. Techniques to solve dc circuits with resistive elements are studied in detail. The course ends with a study of first- and second-order circuits.

 

SYLLABUS

 

      Ideal sources and resistors

      Ohm's law

     Kirchhoff's current and voltage laws

     Combination of resistors in series and parallel; Y- transformations

     Nodal analysis with and without voltage sources

     Mesh analysis with and without current sources

     Introduction to graph theory and its applications to circuit analysis

     Operational amplifiers

     Thevenin's and Norton's theorems and maximum power transfer

     Source transformation

     Principle of superposition

     Capacitors and inductors

     First-order circuits (RC, RL circuits) and their transient behavior

     Second-order circuits (RLC circuits)

 

GRADE:

 

                  The final grade comprises 10% from participation (your attendance is taken at the beginning of each class), 20% from homework, 70% from midterm and final exams.