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  • 3.00 Credits

    The course emphasizes integration of computer aided design and manufacturing, coursework emphasizes creative and critical thinking, planning, design, and incorporation of computers in all stages of manufacturing. Topics covered including manufacturability considerations in the design and development phases and will include product life cycle management of a final project. (Spring) [Graded (Standard Letter)] Prerequisite(s): CCET 2690 and CCET 3680 and CCET 4690 - Prerequisite Min. Grade: C- Prerequisite:    CCET 2690 A CCET 3680 A CCET 4690
  • 3.00 Credits

    This course requires students to work with an industry mentor on an industry project where they are required to draw upon their entire academic experience while at SUU in an effort to provide a solution to a real-world industry problem. (Fall, Spring) [Graded (Standard Letter)] Registration Restriction(s): Senior standing required
  • 1.00 - 3.00 Credits

    Provides the student with an opportunity to gain knowledge and skills from a planned work experience in the civil engineering career field. In addition to meeting Core Learning Outcomes, jointly developed Specific Learning Outcomes are selected, evaluated, and approved by the Faculty Internship Advisor, Work-site Supervisor, and the student. Internship placements are directly related to the student's program of study and build upon skills learned in 1000- and 2000-level civil engineering degree courses. Internships provide entry-level, career-related experience, and workplace competencies that employers value when hiring new employees, including outcomes from the ASCE Body of Knowledge. Internships may also be used as an opportunity to explore career fields. Students must complete an internship plan and meet with the civil engineering internship coordinator prior to registering. CE 2890 does not meet any Civil Engineering major requirements. (As Needed) [Pass/Fail] Repeatable for Add'l Credit? Yes - Total Times: 4
  • 3.00 Credits

    Analysis of elastic, statically indeterminate structures subjected to static loading. Gravity loads are calculated for structural members based on load paths and tributary areas and applied to basic steel structures. Fundamental concepts are stiffness methods, internal work, virtual work, and approximate analysis techniques to verify computer results. (Fall) [Graded (Standard Letter)] Prerequisite(s): ENGR 2140 - Prerequisite Min. Grade: D- Prerequisite:    ENGR 2140
  • 3.00 Credits

    This course is designed to introduce the basic concepts of hydraulic engineering and hydrology. The student shall learn the principles and applications of engineering hydrology. These will provide the students with all the tools for analysis, management, and simulation used to design and operate water resources systems and facilities like dams, canals, bridges, sewer systems, and irrigation systems. The course helps students to design various types of water structures, such as dams, weirs, barrage, spillways, canals, levees, gates, locks, etc. (Fall) [Graded (Standard Letter)] Prerequisite(s): (ME 3300 and ME 3305) or CM 4600 or CCET 3670 - Prerequisite Min. Grade: D- Prerequisite:    ( ME 3300 A ME 3305 ) ( O ENGR 3050 A ENGR 3055 ) O CM 4600 O CCET 3670
  • 3.00 Credits

    Transportation engineering involves the planning, design, operation, management and maintenance of transportation systems for all modes of transportation. Transportation engineers ensure the safe and efficient movement of people and goods. This course aims to provide students with a solid introduction to the principles of transportation engineering as related to several areas, from transportation planning and highway engineering to operations and traffic analysis. Moreover, this course will demonstrate the interdisciplinary nature of transportation engineering and explore transportation systems' multimodality. (Fall) [Graded (Standard Letter)] Prerequisite(s): MATH 1031 or MATH 1040 or MATH 3700 - Prerequisite Min. Grade: D- Prerequisite:    MATH 1031 O MATH 1040 O MATH 3700
  • 3.00 Credits

    Environmental ethics and regulations, water chemistry, mass balance analysis, water and wastewater treatment, surface and ground water quality, solid and hazardous waste management, and air pollution control. (Fall [As Needed]) [Graded (Standard Letter)] Prerequisite(s): CHEM 1210 and MATH 1210 - Prerequisite Min. Grade: D- Prerequisite:    CHEM 1210 A MATH 1210
  • 3.00 Credits

    Development of feasibility studies for land development. Analysis and design of the site layout, site grading activities, detention pond, and utility locations. (Spring [As Needed]) [Graded (Standard Letter)] Prerequisite(s): CCET 3670 - Prerequisite Min. Grade: D- Prerequisite Can Be Concurrent? Yes Prerequisite:    CCET 3670
  • 3.00 Credits

    Application of engineering design principles to a team-based capstone project in the student's specialty area. Emphasis on creative and critical thinking, planning, design, execution and statistical evaluation of experiments, as well as teamwork, project management, and communication. Students will use engineering, systems engineering and project-management principles and concepts learned to-date to execute the project, complete a design report, and present results. Should be taken in the last semester before graduation. (Fall, Spring) [Graded (Standard Letter)] Prerequisite(s): CM 4300 - Prerequisite Min. Grade: D- Prerequisite Can Be Concurrent? Yes Registration Restriction(s): Senior standing required Equivalent Course(s): EE 4055, ME 4055 Prerequisite:    CM 4300
  • 3.00 Credits

    Design of concrete structural elements: Concrete and reinforcing bar properties, design of beams and slabs for flexure and shear. Design of columns, footings, and retaining walls. Evaluation of deflections and serviceability. Extensive use of the American Concrete Institute building code. (Spring) [Graded (Standard Letter)] Prerequisite(s): CE 3100 - Prerequisite Min. Grade: D- Prerequisite:    CE 3100 O ENGR 4050