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NE361 COURSE DETAILS


2 Version(s) of this Course

NE361 (Version: 2019 2) COURSE DETAILS


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
NE361 COMPUTATIONAL DESIGN IN NE 2019 2 Physics and Nuclear Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This is a required course for nuclear engineering and nuclear engineering science majors. This course consists of an introduction to radioactive decay, radiation interactions and transport, and detailed instruction in the use and application of advanced nuclear engineering computational tools culminating in the design of a nuclear engineering system. This course is designed to provide an introduction to the science and theory behind modeling nuclear phenomena along with practical exposure to industry- standard computational tools used to design reactors, radiation shields, detectors and other nuclear systems. Specific topics include: radiation interactions and the Boltzmann transport equation, theory of deterministic and Monte Carlo methods for radiation transport, radioactive decay, problem solving using deterministic and Monte Carlo computer simulations, design of nuclear engineering systems, and analysis and validation of computational results.
LESSONS: 30 @ 75 min (2.000 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

NE361 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
CO REQUISITE  
  NE300 2014 1 1 Y
  PH206 2016 1 1 Y
  NE300 2014 1 2 Y
  PH256 2016 2 2 Y
  NE300 2019 2 3 Y
  PH202X 2022 2 3 Y
  NE300 2022 1 4 Y
  PH202 2023 1 4 Y
  NE300 2022 1 5 Y
  PH252 2023 1 5 Y

NE361 (Version 2019-2) COURSE OFFERINGS


AYT #SECT/SIZE CPBLTY ENRLD WAIT SEATS CLOSED DETAILS
2025 - 2 2 18 36 32 0 4 N Hours

2026 - 2 2 18 36 0 0 36 N Hours

2027 - 2 2 18 36 0 0 36 N Hours


NE361 (Version: 2017 1) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
NE361 COMPUTATIONAL DESIGN IN NE 2017 1 Physics and Nuclear Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This is a required course for nuclear engineering and nuclear engineering science majors. This course consists of an introduction to radioactive decay, radiation interactions and transport, and detailed instruction in the use and application of advanced nuclear engineering computational tools culminating in the design of a nuclear engineering system. This course is designed to provide an introduction to the science and theory behind modeling nuclear phenomena along with practical exposure to industry- standard computational tools used to design reactors, radiation shields, detectors and other nuclear systems. Specific topics include: radiation interactions and the Boltzmann transport equation, theory of deterministic and Monte Carlo methods for radiation transport, radioactive decay, problem solving using deterministic and Monte Carlo computer simulations, design of nuclear engineering systems, and analysis and validation of computational results.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
None

NE361 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
CO REQUISITE  
  NE300 2014 1 1 Y
  PH206 2016 1 1 Y
  NE300 2014 1 2 Y
  PH256 2016 2 2 Y