Spring 2005 ECEN3713 Network Analysis
Instructor: Dr. George Scheets
FAX: (405) 744-9198
E-Mail: scheets@okstate.edu
Contact Information:
    Mondays & Fridays: NH372, Tulsa Campus, Phone: (918)594-8473
    Tuesdays - Thursdays: ES303, Stillwater Campus, Phone: (405)744-6553
Office Hours:
    Monday & Friday: 1300 - 1400
    Tuesday & Thursday: 1600 - 1700
    Wednesday: 1030 - 1130
Grading: 460 point total.  11 quizzes (110 points), 2 exams (200 points), 1 comprehensive final exam (150 points).
    Students missing an exam or the final without notifying the instructor in advance will receive a zero.  At the instructor's option, make-up exams will be available for non-business related reasons, but will be harder. These make-ups will be given on the scheduled make-up time, which is Friday, May 6th, at 1600 hours.
    No make-up quizzes will be given.  If you contact the instructor in advance with a good excuse, you may, at the instructor's option, be excused from a quiz.  Otherwise if you miss a quiz you're out 10 points.
Grade Scale: 90/80/70 % = A/B/C etc. (initially). Final break points will be curved.
Cheating: Don't do it! Quizzes and exams should be your own work.  Expect to get an 'F' for the course if you are caught cheating on a quiz or exam.
Required Text: Electric Circuits, 6th Edition, James Nilsson & Susan Riedel, Prentice Hall, 2001, ISBN 0-13-032120-6
    or Electric Circuits, 7th Edition, ISBN 0-13-146592-9.
Prerequisites:  ECEN2613 Introduction to Electrical Science and MATH2613 Differential Equations.
Corequisites: ECEN3021 Methods II Lab should be taken concurently with this course.  This lab will give you hands-on experience with the theoretical concepts covered in class.
Course Objectives: To introduce some of the basic tools needed for circuit and signal analysis and design, especially the Laplace transform and frequency domain analysis. Frequency domain analysis is one of the most important tools of electrical engineering.  It allows us to understand the effect an electrical circuit has on a given signal by breaking the signal up into its individual frequency components and then analyzing the effect of the circuit on each frequency.
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Quizzes & Tests
2005 Quiz 11
2005 Quiz 10
2005 Quiz 9
2005 Quiz 8
2005 Quiz 7
2005 Quiz 6
2005 Quiz 5
2005 Quiz 4
2005 Quiz 3
2005 Quiz 2
2005 Quiz 1
Tentative Course Outline:
Laplace Transforms
Inverse Laplace Transforms
Laplace Transforms in Circuit Analysis
Time response of First and Second order circuits
Transfer Functions & the Engineer's favorite mathematical function- Convolution
Frequency Response
Passive Filters
Fourier Series