COURSE DESCRIPTION
An exposure to the mathematical and physical concepts which are essential
to the field of electrical engineering. Includes applications at an elementary
level in the areas of networks, energy conversion, and digital logic.
PRE-REQUISITE : MATH 4110 . EE 1305
must be taken prior to registration for EE 2351 .
POST-REQUISITE : EE 1110, EE 2369
COURSE OUTCOMES : Students completing EE 1305 will:
- Be able to apply the fundamental principles (Ohm’s Law and Kirchoff’s Laws) to understand the operation of electrical circuits (C).
- Be able to combine circuit elements using the rules governing series and parallel connections (C).
- Be able to apply node analysis for the solution of DC circuits (C).
- Be able to apply loop analysis for the solution of DC circuits (C).
- Be able to apply the principles of voltage and current division to analyze DC circuits (C).
- Be able to determine the Thevenin and Norton equivalent circuits for simple DC circuits (I).
- Be able to understand the basic voltage/current and energy relationships for capacitors and inductors (C).
- Be able to analyze AC networks using phasor analysis and impedance concepts (C).
- Be able to understand the input/output relationships for basic logic gates and flip-flops (C).
- Be able to apply the fundamentals of Boolean Algebra to analyze the operation of simple digital networks (C).
- Gain an appreciation for engineering ethics and professionalism (I).
PREVIOUS COURSE NUMBER: EE3105
RESPONSIBLE COMMITTEE :
Circuit & Systems
PREVIOUSLY OFFERED
| FALL |
SPRING |
SUMMER |
| 2000 |
2001 |
|
| 1999 |
2000 |
- |
| 1998 |
1999 |
- |
TO BE OFFERED (Tentative)
| FALL |
SPRING |
SUMMER |
| 2001 |
2002 |
- |
| 2002 |
2003 |
- |
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