Focuses on society's interaction with water, air, and soil systems. Management of these major environmental components is examined, considering health and ecological needs and technical limitations. This course may stand alone as introduction to the current environmental challenges that we face, or as the foundation for further study in the field of environmental engineering. Prerequisites: CHEM 1410 or CHEM 1610

Fundamentals of structural mechanics: equilibrium compatibility, determinacy, stability; mathematical models of structural elements: stress resultants in bars, beams, and framed structures; calculation of deflections; general analysis of structures: concepts of stiffness and flexibility, force and displacement methods of analysis. Prerequisite: CE 2310.

Normal stress and strain, thermal strain, shear stress, shear strain; stress and strain transformations; Mohr's circle for plane stress and strain; stresses due to combined loading; axially loaded members; torsion of circular and thin-walled closed sections; deformation, strains and stresses in beams; beam deflections; column stability; energy concepts in mechanics. Cross-listed as MAE 2310. Prerequisite: CE 2300 or MAE 2300

Covers topics related to hydraulics and hydrology, including complicated pipes designs, pumps, open channel, rainfall, evaporation, and surface runoff applied to stormwater and bmp design. Applications include water supply, drainage, flood control, and water control, and computer modeling. Prerequisite: CE 3210

Basic concepts of mechanics: systems of forces and couples: equilibrium of particles and rigid bodies; analysis of structures: trusses, frames, machines; internal forces, shear and bending moment diagrams; distributed forces; friction, centroids and moments of inertia; principle of virtual work; and computer applications. Cross-listed as MAE 2300. Prerequisite: PHYS 1425 or PHYS 1420 or PHYS 1710.

Development of fundamental civil engineering design knowledge and skills, with a focus on surveying, engineering graphics, and engineering economics. Emphasis on hands-on experience with the latest equipment and technology. Prerequisites: Engineering students or instructor permission.

This course will examine complex issues associated with providing potable water to the world's population. Topics will include the use of surface and ground water as potable water supplies, fund. of water chemistry, the engineering principles used to design modern water treatment and distribution systems, and problems associated with providing potable water in developing global communities. Pre-reqs: CHEM 1410 or CHEM 1810, and APMA 2130 or MATH 3250 or APMA 2501 - Differential Equations & Linear Algebra. (CE 3210 recommended)

Fundamentals of transportation infrastructure design will be covered. Topics include: analysis of the characteristics of the driver, pedestrian, vehicle, and road; highway geometric design; intersection desgin and operations; highway drainage and drainage structures; highway pavement design. Prerequisite: CE 2010 and Third-year standing.

We will explore terminology and concepts for characterizing and mathematically modeling human impacts on microbial systems and vice versa. Special consideration will be given to microbe-mediated cycling of organic materials (i.e., pollutants) in natural and engineered systems, including: conventional water and wastewater treatment, municipal landfills, pristine and contaminated groundwater and surface waters, etc. Prerequisites: CE 2100 and CE 3100

A hands-on overview in systems thinking as it relates to infrastructure and sustainability analysis. Students will learn quantitative tools to analyze complex socio-technical systems with a focus on water, energy, transportation, buildings, and food. Students will undertake an open-ended, team-based life cycle assessment project on a topic of their choice. Prerequisites: CHEM 1410 and CE 2100 or Energy/Mass Balances.