3 credit(s)
Analysis and design of reinforced concrete beams, columns, and slabs using the ultimate strength design method. Written and oral presentations of results included.
Prerequisite(s): CE 310.
3 credit(s)
Dynamic behavior of structures with emphasis in bridges and buildings. Free vibration and forced (harmonic, periodic, arbitrary, impulse) vibration of single-degree-of-freedom (SDOF) and multi-degree-of freedom (MDOF) systems. Introduction to earthquake engineering with emphasis in response and design spectra of structures. Computer analysis of classical problems and practical projects.
Prerequisite(s): M 246 and CE 310 or graduate standing.
Course Cross-listed with ARC 574
4 credit(s)
Behavior and design of steel structural members and connections using Load and Resistance Factor Design (LRFD) method are studied. Behavior and design of wood structures are studied. Structural design of tension members and beams is discussed. Analysis and design of columns, including slenderness effects, are studied. Members under combined forces also are discussed. Member stability and structural stability issues are investigated using effective length factors. Design of bolted, riveted, and welded connections in steel structures are studied. General details of steel and wood buildings are discussed. Laboratory includes design sessions as well as experiments with steel components. Three lecture hours, three lab hours.
Prerequisite(s): ADT 355, MTH 233, and PHY 122; or permission of instructor or Department Chair.