Behavior and design of structural elements and systems, including continuous beams, plate girders, composite steel-concrete members, members in combined bending and compression. Structural frames, framing systems, eccentric connections, and torsion and torsional stability are also studied. (Y) Prerequisites: CE 3330 or equivalent.

Sustainability is the challenge of meeting today's needs without impairing the needs of future societies. This course seeks to provide an integrated scientific foundation to understand the sustainability of environmental systems and of some science-based sustainable solutions. Sustainability science will draw from a spectrum of relevant sciences, including chemistry, biology, environmental science, and physics. Pre-requisite: CHEM 1410 or CHEM 1810

Building a concrete canoe offers students hands-on experience with concrete mix designs and project management. Annual design challenge, set by the ASCE, evolves each year. Students apply the engineering design process to research, design, build, test and race a full-scale concrete canoe. Course will be offered as CE2720 for non-engineering students, focusing on financial, management, communications, and other tasks appropriate to their skills.

Building a concrete canoe offers hands-on experience with concrete mix designs and project management. The annual ASCE design challenge evolves each year. Students apply the engineering design process to research, design, build, test, and race a full-scale concrete canoe, contributing based on their skills and interests; might perform concrete and buoyancy calculations, or hydrodynamic flume testing. For Engineering students only.

Students will be introduced to current civil engineering challenges and emerging solutions. Research and practical case studies will be included. Participants will summarize and explore implications of introduced topics.

In this course, civil engineers learn to create resilient infrastructure that withstands climate impacts like floods, droughts, & heat. It covers risk assessment, managing uncertainty, and designing for climate adaptation, with a focus on water, energy, & transport systems. Students will use case studies to consider the effects on various communities, emphasizing equitable solutions, and complete a project on a climate challenge of their choice. Prerequisite: Fourth-year standing and APMA 3110 or APMA 3100

This class surveys the breadth of Civil Engineering as a discipline, and is customized for graduate students without previous education in civil engineering. Students will learn the basics on a wide variety of design and practice topics within the field of civil engineering. Restricted to Civil Engineering Graduate Students with Instructor's Permission.

In this course, students will learn how to use Building Information Modeling to 1) support the decision-making over a project life cycle and 2) improve coordination between stakeholders throughout the design and construction stages. With this hands-on course, students will learn how to integrate all project models to visualize construction process and better predict, manage, and communicate project outcomes.

Detailed study of graduate course material on an independent basis under the guidance of a faculty member. Master's-level graduate students. Prerequisites: Instructor Permission

Formal record of student commitment to project research under the guidance of a faculty advisor. Registration may be repeated as necessary. Master's-level graduate students. Prerequisites: Instructor Permission