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Course Criteria
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2.00 Credits
This class provides an understanding of the study and practice associated with civil, electrical and mechanical engineering disciplines. It will emphasize the importance of good communication and teamwork skills in a successful engineering environment. It provides practice in problem solving and design. Students will participate in discipline-specific labs.
Prerequisite:
Special authorization is required by the College of Engineering for all Honor students. (Engineering and non-engineering majors)
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3.00 Credits
This course introduces engineering applications of mathematical concepts through the programming environment of Matlab. Topics covered include vectors and matrices, linear matrix equations with engineering applications, eigenvalue problem, interpolation, differentiation and integration, and optimization. Engineering applications of various concepts are emphasized.
Prerequisite:
MATH 2043 (0127), C+IN SC 1057 (C071)
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3.00 Credits
Each is a prerequisite to the course that
follows. Full time work experience in industry,
governmental agencies, or educational
institutions is arranged through the co-op
coordinator of the College of Engineering (15
weeks, 40 hours/week). Students are considered as academically full-time during work periods.
Prerequisite:
30 semester hours of course work or sophomore standing
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1.00 - 4.00 Credits
Work experience in industry, governmental agencies, or educational institutions is arranged through the Director of Career Services in the College of Engineering. The course is for one semester of work experience. Letter from supervisor and report by student are required.
Prerequisite:
ENGRG 1185 (0385); 30 semester hours of course work or sophomore standing
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3.00 Credits
This course introduces technical writing techniques practiced by engineers in the profession. Students will learn technical writing skills used in day-to-day assignments typically given to junior engineers. Course work will include these or similarly challenging kinds of technical writing: Data analyses from engineering observations or experiments; User instructions for engineering products; Review reports and perhaps position papers on tightly focused engineering topics; along with associated technical memoranda and basic supporting graphics. Course instructors will assess student writing for substantive quality and professional appropriateness, as well as for English correctness and communication effectiveness. Students will also study writing-related skills such as analyzing audiences and stakeholders, designing tables and diagrams, improving readability, structuring documents for maintainability, and resolving writing-related ethical conflicts.
Prerequisite:
ENGLISH 0802, MATH 1041 (C085), MATH 1042 (0086), PHYSICS 1061 (C087), and sophomore standing in Engineering
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3.00 Credits
Vector mechanics of force and moment
systems in two and three dimensions, freebody
diagrams and the static equilibrium of
structures, centroids, moments of inertia,
frictional systems, shearing force, and bending
moment diagrams.
Prerequisite:
MATH 1042 (0086) and PHYSICS 1061 (C087). [Prerequisite for ET majors only: MATH 1031 (C077) and PHYSICS 1021 (C085)]
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3.00 Credits
A vector approach to the study of the rectilinear and curvilinear motion of particles and rigid bodies as described by rectangular, polar, and path coordinates and the study of the forces that produce such motion as described through the application of Newton’s second law of motion, work-energy relationships, and impulse and momentum principles, including rigid body rotation and relative motion.
Prerequisite:
ENGRG 2331 (0131) and MATH 1042 (0086). [Prerequisite for ET majors only: MATH 1031 (C077)]
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3.00 Credits
Classical approach to axial stress and strain,
torsion, bending, combined stress, biaxial
stress, deflection of beams and frames, elastic
strain energy, pressure vessels, column
stability, and buckling.
Prerequisite:
ENGRG 2331 (0131)
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3.00 Credits
Vector mechanics of force and moment systems in two and three dimensions, free body diagrams and the static equilibrium of structures, centroids, area and mass of the rectilinear and curvilinear motion of particles as described by rectangular, polar and path coordinates and the study of the forces that produce such motion using Newton’s second law of motion, work-energy relationships, and impulse-momentum techniques. An overview of rigid body rotation is presented.
Prerequisite:
PHYSICS 1061 (C087) and MATH 1042 (0086). [Prerequisite for ET majors only: MATH 1031 (C077) and PHYSICS 1021 (C085)]
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3.00 Credits
A vector mechanics study of STATICS: free body diagrams, equilibrium, resultant force/couple systems, reaction forces and couples on 2-D and 3-D systems, member forces in trusses; and DYNAMICS: kinematics and kinetics of particles.
Prerequisite:
MATH 1041 (C085). [Prerequisite for ET majors only: MATH 1031 (C077) and PHYSICS 1021 (C085)]
Corequisite:
MATH 1042 (0086), PHYSICS 1061 (C087)
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