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Course Criteria
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3.00 Credits
Prerequisite: CEN 6016. Topics covered in this course include: the quality of the software product; techniques with the stages of verification and validation; reliability; correctness, testing methods, coverage measures, testing specialized applications, formal verification, testing management techniques and support tools; team-oriented project used methods, techniques and practices learned.
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3.00 Credits
Prerequisites: Software Engineering core: CIS 6101, CEN 6016, CEN 6017, and CEN 6070. This course involves a supervised team project, including field experience with real customers, to address a major software development effort that employs methods, techniques, and practices covered in the Software Engineering core.
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4.00 Credits
Prerequisite: CES 3104C. This course will investigate types of loads on structures, truss analysis, shear and bending moment diagrams, influence lines and design envelopes. Deformation of beams, frames and trusses are covered. Analysis of indeterminate structures is introduced using consistent deformation, slope deflection and moment distribution methods. Computers and matrix methods are introduced.
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3.00 Credits
Prerequisite: C or better in EGN 3311 (Statics) or equivalent. The concept of stress and strain is covered and includes topics such as normal stress and strain, Hooke's Law, and stress transformation Mohr's Circle. Deformations in axially loaded members are included with some focus on statically indeterminate members. Shafts subjected to torsion and flexural members are covered. Shear and Bending Moment diagrams are emphasized with an introduction to member design. Deflection of beams and columns buckling are introduced. Hands-on Laboratory exercises are also included to investigate stress and strain. (A laboratory fee of $30 will be assessed.)
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3.00 Credits
Prerequisite: CES 3100. Concepts of structural design are introduced. The topics cover: philosophies of design and the LRFD method, structural steel systems, structural design loads, design of tension members, design of bolted and welded connection, design of columns, design of beams, and finally design of beam columns. The AISC steel design manual is used in all design problems. Computer aided design is included utilizing commercially available packages. Hands-on laboratory exercises are also included to investigate steel structural components.
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3.00 Credits
Prerequisite: CES 3100. Structural concrete and its behavior are introduced. Current ACI Code provisions for structural design are utilized in learning how to design reinforced concrete structural members. The failure theories for beams, columns, slabs are introduced. Topics include the design of rectangular and T beams, design of columns and utilizing interaction diagrams, design of one-way slabs, and finally the design of spread and combined footings. Hands-on laboratory exercises are also included to investigate concrete structural components. (A laboratory fee of $30 will be assessed.)
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3.00 Credits
Prerequisite: CES 3104C Mechanics of Materials This course covers advanced topics in solid mechanics. Course topics include review of stress and strain theories, lineal stress-strain relationships, inelastic material behavior, and application of energy methods, stress concentrations, introduction to fracture mechanics, fatigue, and creep.
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3.00 Credits
Prerequisites: CES 3605C Design of Steel Structures, CES 4702C Design of Reinforced Concrete This course covers the design of structural systems for bridges using the Aashto-Lrfd design methodology. Topics covered will include analysis by influence lines, design of slab, beam-slab, and existing bridges.
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3.00 Credits
Prerequisite: CES 4702C Design of Reinforced Concrete This course covers the design of frames, two-way floor systems, shear walls; shear and torsion; compression field theory; inelastic analysis; wind and seismic design; and provide an introduction to prestressed concrete.
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3.00 Credits
Prerequisite: Graduate standing and consent of instructor This course covers prestressed concrete behavior and design for applications in building and bridge design. Topics covered will include the design of fire-and post-tensioned girders, floors, roofs, and walls.
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