Homework Sets , Learn Your Grades , Distribution of Grades

Announcements

  • Homework - Exam Results
  • Final Exam solutions are on the web.
  • Notes for Power Factor Compensation is added.
  • HW 6: 10.25, 10.31, 10.37 and 10.45 (for exam study, not to be collected)
  • Midterm 2 is graded.
  • EE 209 Make-up exam: Jan 21, 2008, at 16:30, in EA 202 (Electrical Engin. A Blok, Classroom : 202)
  • EE 209 Final Exam: Jan 15, 2008, at 9:30, in EA 201 (Electrical Engin. A Blok, Classroom : 201)
  • Midterm 2 solutions are place on the web.
  • Midterm 2 is between 10:30 - 12:30, 11th Dec. at B-206 - B 207.
  • Homework #6: (Not to be collected, for exam study) 9.10, 9.11, 9.15, 9.19, 9.29, 9.33.
  • Midterm Exam #2 of 2004 is place in here for study. (Midterm 2 coverage only includes first 2 problems of 2004 exam)
  • Homework #5 : 6.23, 6.32, 6.34, 6.35 (due : Dec 4th, Tuesday)
  • Midterm #1 is graded, solutions are available here.
  • EE 209 Midterm 2 will be on Tuesday, Dec. 11th, 2007. (during lecture hours)
  • Homework #4: Problems 4.42, 4.43, 4.59 and 3.42 (due: 27th Nov, 2007, no late submissions)
  • Midterm #1, 13th Nov during lecture hours (10:30 - 12:30)
  • Midterm place is the CAD laboratory next to the room that we have lectures on Tuesdays.
  • A previous year midterm exam is available here.
  • Homework #3, 2.42, 2.44 (By Superposition and source-transformation and Thevenin-Norton Theorem), 2.46, 3.9, 3.10, 3.14, 4.39, 4.56 (Due: Nov 1st, no late submissions)
  • Homework #2, due: 23rd Oct. 2007 (no late submissions)
    Problems from Johnson and Johnson
    4.14, 4.16, 4.20 (using supernode and without supernode) , 4.28, 4.35, 4.37, 4.38
  • Homework #1 is posted.

Fall 2007-2008

 

 

 

EE 209  : Fundamentals of Electrical Engineering

Middle East Technical University

Electrical and Electronics Engineering Department

 

 

 

Course Outline:

 

A concise introduction to the fundamentals of Electrical Engineering. EE 209 is the accelerated  study of the core courses in circuits and systems and electric machinery. The goal is to develop circuit analysis methods for DC and AC circuits.

 

 

Instructor:

Cagatay Candan

 

 

Reference Books:

1.      Electric Circuit Analysis, D.E. Johnson and J.R. Johnson and J.L. Hilburn

2.      Schaum’s Outline Series for Electric Circuits,  J.A. Edminister,  TK454 E46 1997

 

 

Topics:

1.      Introduction, Circuit Variables, Lumped Elements and Lumped Circuits, Kirchhoff’s  Laws,

2.      Linear, non-linear, time-invariant, time-variant resistive circuits,

a.       Linearity

b.      Node, Mesh, Superposition, Thevenin and Norton Equivalents

3.      Dynamic Elements, Inductors – Capacitors,

4.      AC Steady State Analysis, Phasors, RMS values,

5.      AC Steady State Power, Power Compensation, Three Phase Systems,

6.      Basics of Electrical Machines,

7.      Operational Amplifiers, Diodes, Transistors ,

 

 

 

C.Candan