With lab. Interpretation of geology for the purpose of planning, siting, design, and construction of engineered facilities. Includes plate tectonics, mineral and rock identification, engineering geologic mapping, air photo interpretation, residual soils, glaciation, and engineering problems associated with geologic features. Prerequisite: CE-ENGIN 320.

With lab. Interpretation of geology for the purpose of planning, siting, design, and construction of engineered facilities. Includes plate tectonics, mineral and rock identification, engineering geologic mapping, air photo interpretation, residual soils, glaciation, and engineering problems associated with geologic features. Prerequisite: CE-ENGIN 320.

This course covers operations and safety topics related to bicycle and pedestrian transportation. Bicycle and pedestrian infrastructure treatments, complete streets, and the impacts of such designs and practices on operations and safety are studied. In addition, this course includes topics related to multimodal signal control and level of service as well as the connection between bicycle and pedestrian infrastructure with physical activity and overall health outcomes. Discussion on how bicycling and walking are accounted for in decision-making is also included.

Not available at this time

With Lab. Introduction to environmental engineering with a focus on physical, chemical, and biological principles. Topics include environmental standards and legislation, material balances, reaction kinetics, environmental chemistry and microbiology, biogeochemical cycles, water quality, water resources, air quality, and solid and hazardous wastes. Prerequisite: MATH 331 and CHEM 112 Corequisite: CE-ENGIN 357

With Lab. Introduction to environmental engineering with a focus on physical, chemical, and biological principles. Topics include environmental standards and legislation, material balances, reaction kinetics, environmental chemistry and microbiology, biogeochemical cycles, water quality, water resources, air quality, and solid and hazardous wastes. Prerequisite: MATH 331 and CHEM 112 Corequisite: CE-ENGIN 357

With Lab. Introduction to environmental engineering with a focus on physical, chemical, and biological principles. Topics include environmental standards and legislation, material balances, reaction kinetics, environmental chemistry and microbiology, biogeochemical cycles, water quality, water resources, air quality, and solid and hazardous wastes. Prerequisite: MATH 331 and CHEM 112 Corequisite: CE-ENGIN 357

With Lab. Introduction to environmental engineering with a focus on physical, chemical, and biological principles. Topics include environmental standards and legislation, material balances, reaction kinetics, environmental chemistry and microbiology, biogeochemical cycles, water quality, water resources, air quality, and solid and hazardous wastes. Prerequisite: MATH 331 and CHEM 112 Corequisite: CE-ENGIN 357

Introductory structural analysis. Calculation of forces, moments, and deformations for axially loaded and flexural structures including trusses, beams, frames, arches, and cables. Classical and computer methods used. Prerequisite: CE-ENGIN 241 or M&I-ENG 211.

With Lab. Properties of soil used in engineering including: soil classification; compaction; swelling and shrinkage; permeability and seepage; consolidation; strength and stiffness; and implications of soil for civil engineering design. Prerequisite: CE-ENGIN 241or M&I-ENG 211. Co-requisite: CE-ENGIN 357.