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EE302 COURSE DETAILS


3 Version(s) of this Course

EE302 (Version: 2009 1) COURSE DETAILS


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EE302 INTRO ELECTRICAL ENGIN 2009 1 Electrical Engineering and Computer Science 3.5 (BS=0.0, ET=3.5, MA=0.0)
SCOPE
This first course in electrical engineering provides a solid introduction to electric circuit theory. Fundamental principles and network theorems are developed using DC resistive circuits. The complete responses of RC, RL, and RLC circuits are obtained using classical and Laplace-transform techniques to solve the related differential equations. Electrical system transfer functions, time-domain and frequency-domain relationships, stability, frequency response, steady-state AC analysis, and power are also studied. Laboratory work, practical applications, and classroom demonstrations emphasize and illustrate the fundamentals presented in the course.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 7 @ 120 min
SPECIAL REQUIREMENTS:
None

EE302 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
CO REQUISITE  
  MA205 2005 2 1 Y
  PH202 2007 2 1 Y
  MA205 2005 2 2 Y
  PH252 2007 2 2 Y
  MA255 2003 2 3 Y
  PH202 2007 2 3 Y
  MA255 2003 2 4 Y
  PH252 2007 2 4 Y
  MA205 2005 2 5 Y
  PH204 2004 2 5 Y
  MA255 2003 2 6 Y
  PH204 2004 2 6 Y
  MA205 2017 1 7 Y
  PH206 2016 1 7 Y
  MA205 2017 1 8 Y
  PH256 2016 2 8 Y
  MA255 2016 2 9 Y
  PH206 2016 1 9 Y
  MA255 2016 2 10 Y
  PH256 2016 2 10 Y
  MA205 2017 1 11 Y
  PH202X 2022 2 11 Y
  MA255 2016 2 12 Y
  PH202X 2022 2 12 Y
DISQUALIFIER  
  EE350 2004 2 1 Y
  EE301 1998 1 2 Y

EE302 (Version 2009-1) COURSE OFFERINGS


AYT #SECT/SIZE CPBLTY ENRLD WAIT SEATS CLOSED DETAILS
2024 - 2 2 18 36 29 0 7 N Hours

2025 - 2 2 18 36 35 0 1 N Hours

2026 - 2 2 18 36 0 0 36 N Hours

2027 - 2 2 18 36 0 0 36 N Hours


EE302 (Version: 2004 1) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EE302 INTRO ELECTRICAL ENGIN 2004 1 Electrical Engineering and Computer Science 3.5 (BS=0.0, ET=3.5, MA=0.0)
SCOPE
This first course in electrical engineering provides a solid introduction to electric circuit theory. Fundamental principles and network theorems are developed using DC resistive circuits. The complete responses of RC, RL, and RLC circuits are obtained using classical and Laplace-transform techniques to solve the related differential equations. Electrical system transfer functions, time-domain and frequency-domain relationships, stability, frequency response, steady-state AC analysis, and power are also studied. Laboratory work, practical applications, and classroom demonstrations emphasize and illustrate the fundamentals presented in the course.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 7 @ 120 min
SPECIAL REQUIREMENTS:
None

EE302 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
CO REQUISITE  
  MA364 1992 2 1 Y
DISQUALIFIER  
  EE350 2004 2 1 Y
  EE301 1998 1 2 Y
PRE REQUISITE  
  MA205 1991 2 1 Y
  PH204 2001 2 1 Y
  MA205 1991 2 2 Y
  PH254 2002 2 2 Y
  MA255 2000 2 3 Y
  PH204 2001 2 3 Y
  MA255 2000 2 4 Y
  PH254 2002 2 4 Y
  MA205 2005 2 5 Y
  PH202 2007 2 5 Y
  MA205 2005 2 6 Y
  PH252 2007 2 6 Y
  MA255 2003 2 7 Y
  PH202 2007 2 7 Y
  MA255 2003 2 8 Y
  PH252 2007 2 8 Y

EE302 (Version: 1984 1) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EE302 INTRO ELECTRICAL ENGIN 1984 1 Electrical Engineering and Computer Science 3.5 (BS=0.0, ET=3.5, MA=0.0)
SCOPE
: This first course in electrical engineering provides a solid introduction to electric circuit theory. Fundamental principles and network theorems are developed using DC resistive circuits. The complete responses of RC, RL, and RLC circuits are obtained using classical and Laplace-transform techniques to solve the related differential equations. Electrical system transfer functions, time-domain and frequency-domain relationships, stability, frequency response, steady-state AC analysis, and power are also studied. Laboratory work, practical applications, and classroom demonstrations emphasize and illustrate the fundamentals presented in the course.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 7 @ 120 min
SPECIAL REQUIREMENTS:
None

EE302 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
DISQUALIFIER  
  EE301 1998 1 1 Y
PRE REQUISITE  
  MA205 1991 2 1 Y
  PH202 1978 2 1 Y
  MA205 1991 2 2 Y
  PH252 1992 2 2 Y
  MA255 2000 2 3 Y
  PH202 1978 2 3 Y
  MA255 2000 2 4 Y
  PH252 1992 2 4 Y
  MA205 1991 2 5 Y
  PH204 2001 2 5 Y
  MA255 2000 2 6 Y
  PH204 2001 2 6 Y
  MA205 1991 2 7 Y
  PH254 2002 2 7 Y
  MA255 2000 2 8 Y
  PH254 2002 2 8 Y