Course Descriptions

The Course Descriptions catalog describes all undergraduate and graduate courses offered by Michigan State University. The searches below only return course versions Fall 2000 and forward. Please refer to the Archived Course Descriptions for additional information.

Course Numbers Policy
Definitions of Course Characteristics (pdf)

Course Descriptions: Search Results

CE 280  Introduction to Environmental Engineering

Description:
Elements of hydrology. Groundwater and surface water supply and contamination. Treatment systems for drinking water, wastewater, air, and solid and hazardous waste. Introduction to noise and radiation pollution.
Effective Dates:
FS92 - US98


CE 280  Introduction to Environmental Engineering

Description:
Elements of hydrology. Groundwater and surface water supply and contamination. Treatment systems for drinking water, wastewater, air, and solid and hazardous waste. Introduction to noise and radiation pollution.
Effective Dates:
FS98 - FS99


CE 280  Introduction to Environmental Engineering

Description:
Elements of hydrology. Groundwater and surface water supply and contamination. Treatment systems for drinking water, wastewater, air, and solid and hazardous waste. Noise and radiation pollution.
Effective Dates:
SS00 - US02


CE 280  Introduction to Environmental Engineering

Description:
Elements of hydrology. Groundwater and surface water supply and contamination. Treatment systems for drinking water, wastewater, air, and solid and hazardous waste. Noise and radiation pollution.
Effective Dates:
FS02 - SS05


CE 280  Principles of Environmental Engineering and Science

Semester:
Fall of every year, Spring of every year
Credits:
Total Credits: 3   Lecture/Recitation/Discussion Hours: 3
Prerequisite:
(CEM 141 or CEM 151 or LBS 171) and ((MTH 132 or concurrently) or (MTH 152H or concurrently) or (LBS 118 or concurrently))
Description:
Physical, chemical and biological processes related to environmental science and engineering. Environmental systems analysis with application to air, water and soil. Analysis of environmental problems and development of engineering solutions.
Effective Dates:
US05 - SS09


CE 280  Principles of Environmental Engineering and Science

Semester:
Fall of every year, Spring of every year
Credits:
Total Credits: 3   Lecture/Recitation/Discussion Hours: 3
Prerequisite:
(CEM 141 or CEM 151 or LB 171) and ((MTH 132 or concurrently) or (MTH 152H or concurrently) or (LB 118 or concurrently))
Description:
Physical, chemical and biological processes related to environmental science and engineering. Environmental systems analysis with application to air, water and soil. Analysis of environmental problems and development of engineering solutions.
Effective Dates:
US09 - SS12


ENE 280  Principles of Environmental Engineering and Science

Semester:
Fall of every year, Spring of every year
Credits:
Total Credits: 3   Lecture/Recitation/Discussion Hours: 3
Prerequisite:
(CEM 141 or CEM 151 or LB 171) and ((MTH 132 or concurrently) or (MTH 152H or concurrently) or (LB 118 or concurrently))
Description:
Physical, chemical and biological processes related to environmental science and engineering. Environmental systems analysis with application to air, water and soil. Analysis of environmental problems and development of engineering solutions.
Effective Dates:
US12 - US13


ENE 280  Principles of Environmental Engineering and Science

Semester:
Fall of every year, Spring of every year
Credits:
Total Credits: 3   Lecture/Recitation/Discussion Hours: 3
Prerequisite:
(CEM 141 or CEM 151 or LB 171) and ((MTH 132 or concurrently) or (MTH 152H or concurrently) or (LB 118 or concurrently))
Description:
Physical, chemical and biological processes related to environmental science and engineering. Environmental systems analysis with application to air, water and soil. Analysis of environmental problems and development of engineering solutions.
Effective Dates:
FS13 - US21


ENE 280  Principles of Environmental Engineering and Science

Semester:
Fall of every year, Spring of every year
Credits:
Total Credits: 3   Lecture/Recitation/Discussion Hours: 3
Prerequisite:
(CEM 141 or CEM 151 or LB 171) and (MTH 133 or MTH 153H or LB 119)
Description:
Analysis of environmental problems and engineering solutions based on physical, chemical, and biological processes. Mass balance modeling of contaminant fate, transport and removal in environmental media.
Effective Dates:
FS21 - Open