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PH382 COURSE DETAILS


6 Version(s) of this Course

PH382 (Version: 2020 1) COURSE DETAILS


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INTERMEDIATE ELECTRODYNAMICS 2020 1 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
This course continues the study of classical electrodynamics introduced in the introductory physics sequence by developing the differential forms of the Maxwell equations and applying them to boundary value problems in two and three dimensions. In addition, scalar and vector potentials are introduced, multipole field expansions are developed for complex sources, electromagnetic fields in dielectric and magnetic media are studied, the propagation of electromagnetic waves in conducting and nonconducting media is considered and electromagnetic radiation is introduced. The course concludes with the study of the connection between special relativity and electrodynamics. This course provides an essential foundation for courses in optics, lasers, quantum mechanics, statistical mechanics, and solid state physics.
LESSONS: 30 @ 75 min (2.000 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  PH363 2006 1 1 Y
  MA364 2015 1 2 Y
  MA365 2018 1 3 Y

PH382 (Version 2020-1) COURSE OFFERINGS


AYT #SECT/SIZE CPBLTY ENRLD WAIT SEATS CLOSED CRSE DIRECTOR DETAILS
2024 - 1 2 19 38 36 0 2 N COL LOUCKS Hours

2025 - 1 2 18 36 28 0 8 N Hours

2026 - 1 2 14 28 0 0 28 N COL LOUCKS Hours


PH382 (Version: 2007 1) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INTERMEDIATE ELECTRODYNAMICS 2007 1 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
This course continues the study of classical electrodynamics introduced in the introductory physics sequence by developing the differential forms of the Maxwell equations and applying them to boundary value problems in two and three dimensions. In addition, scalar and vector potentials are introduced, multipole field expansions are developed for complex sources, electromagnetic fields in dielectric and magnetic media are studied, the propagation of electromagnetic waves in conducting and nonconducting media is considered and electromagnetic radiation is introduced. The course concludes with the study of the connection between special relativity and electrodynamics. This course provides an essential foundation for courses in optics, lasers, quantum mechanics, statistical mechanics, and solid state physics.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  PH363 2006 1 1 Y
  MA364 2015 1 2 Y
  MA365 2018 1 3 Y

PH382 (Version: 2004 1) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INTERMEDIATE ELECTRODYNAMICS 2004 1 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
This course continues the study of classical electrodynamics introduced in the introductory physics sequence by developing the differential forms of the Maxwell equations and applying them to boundary value problems in two and three dimensions. In addition, scalar and vector potentials are introduced, multipole field expansions are developed for complex sources, electromagnetic fields in dielectric and magnetic media are studied, the propagation of electromagnetic waves in conducting and nonconducting media is considered and electromagnetic radiation is introduced. The course concludes with the study of the connection between special relativity and electrodynamics. This course provides an essential foundation for courses in optics, lasers, quantum mechanics, statistical mechanics, and solid state physics.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  MA363 2003 2 1 Y
  PH204 2001 2 1 Y
  MA364 2003 1 2 Y
  PH204 2001 2 2 Y
  MA363 2003 2 3 Y
  PH254 2002 2 3 Y
  MA364 2003 1 4 Y
  PH254 2002 2 4 Y

PH382 (Version: 2003 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INTRMED ELECTRODYNAMICS 2003 2 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
This course continues the study of classical electrodynamics introduced in the introductory physics sequence by developing the differential forms of the Maxwell equations and applying them to boundary value problems in two and three dimensions. In addition, scalar and vector potentials are introduced, multipole field expansions are developed for complex sources, electromagnetic fields in dielectric and magnetic media are studied, the propagation of electromagnetic waves in conducting and nonconducting media is considered and electromagnetic radiation is introduced. The course concludes with the study of the connection between special relativity and electrodynamics. This course provides an essential foundation for courses in optics, lasers, quantum mechanics, statistical mechanics, and solid state physics.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  MA363 2003 2 1 Y
  MA484 1973 2 1 Y
  PH204 2001 2 1 Y
  MA364 2003 1 2 Y
  MA484 1973 2 2 Y
  PH204 2001 2 2 Y
  MA363 2003 2 3 Y
  MA484 1973 2 3 Y
  PH254 2002 2 3 Y
  MA364 2003 1 4 Y
  MA484 1973 2 4 Y
  PH254 2002 2 4 Y

PH382 (Version: 2000 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INTERMEDIATE ELECTRODYNAMIC 2000 2 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
This course continues the study of classical electrodynamics introduced in PH202/252 by developing the differential forms of the Maxwell equations and applying them to boundary value problems in two and three dimensions. In addition, scalar and vector potentials are introduced, multipole field expansions are developed for complex sources, electromagnetic fields in dielectric and magnetic media are studied, the propagation of electromagnetic waves in conducting and non-conducting media is considered and electromagnetic radiation is introduced. The course concludes with the study of the connection between special relativity and electrodynamics. This course provides an essential foundation for courses in optics, lasers, quantum mechanics, statistical mechanics, and solid state physics.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
CO REQUISITE  
  MA484 1973 2 1 Y
PRE REQUISITE  
  MA363 1989 1 1 Y
  PH202 1978 2 1 Y
  MA364 1992 2 2 Y
  PH202 1978 2 2 Y
  MA363 1989 1 3 Y
  PH252 1992 2 3 Y
  MA364 1992 2 4 Y
  PH252 1992 2 4 Y
  MA364 1992 2 5 Y
  PH204 2001 2 5 Y
  MA363 1989 1 6 Y
  PH204 2001 2 6 Y
  MA363 1989 1 7 Y
  PH254 2002 2 7 Y
  MA364 1992 2 8 Y
  PH254 2002 2 8 Y

PH382 (Version: 1977 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
PH382 INT ELECTRICITY & MAGNETISM 1977 2 Physics and Nuclear Engineering 3.0 (BS=3.0, ET=0.0, MA=0.0)
SCOPE
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

PH382 COURSE REQUISITES


None