09111/Engineering (ENGR)

 

0001. Introduction to Engineering (3 s.h.) F.

Provides an overview of all engineering and engineering technology programs. Insights into the workings of computers, web pages. Breakout sessions with major area.

0011. Engineering Graphics (3 s.h.) F S SS.

Prerequisite: Plane geometry and trigonometry.

Manual lettering and sketching. Computer-aided geometrical construction, charts, orthographic and isometric drawings, dimensioning, auxiliary views, sectioning, geometric tolerancing, and elementary drafting problems.

0131. Engineering Statics (3 s.h.) F.

Prerequisite: Math C086 and Physics C087.

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.

0132. Engineering Dynamics (3 s.h.) S SS.

Prerequisite: ENGR 0131 and Math C086.

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.

0133. Mechanics of Solids (3 s.h.) S SS.

Prerequisite: ENGR 0131.

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.

0134. Statics/Dynamics. (3 s.h.) F.

Prerequisite: Physics C087 and Math C086.

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.

Note: This course for E.E. majors only.

W233. Materials Science for Engineers (3 s.h.) F SS. Core: WI.

Prerequisite: Chemistry C071, and Physics C088.

Atomic and molecular structures, bonding and interatomic forces, thermodynamics and kinetics of solid reactions, mechanical, electronic, and magnetic properties of solids. Design projects with written reports.

W241. Economic Analysis (3 s.h.) F S. Core: WI.

Prerequisite: Junior standing.

Applications of present and annual worth, rate of return, incremental, benefit cost and broken analysis, cash flow, economic life, depreciation, taxes, capital budgeting, and management overview. Project with written report.

0253. Mechanics of Fluids (3 s.h.) S.

Prerequisite: Physics C087 and ENGR 0132 and 0133.

General physical properties of fluids. Fluid statics and pressure measurements. Kinematics of fluid motion. Conservation laws in control volume and differential forms with applications. Bernoulli's equation and irrotation flow. Viscous flow in pipes and flow measurements. Boundary layer concepts. Numerical methods. Design project.

0271. Classical and Statistical Thermodynamics (3 s.h.) F S SS.

Prerequisite: Physics C087 and C088.

The study of the concepts, theory, and application of energy and entropy from a classical and statistical viewpoint. Numerical methods.

0310. Computer-Aided Design (3 s.h.) F S.

Prerequisite: ENGR 0011 and 0133.

Two- and three-dimensional graphics on the CAD system. Computer-aided analysis programs, including 3D finite element analysis with ANSYS general purpose program. Mechanism analysis. Solids modeling. Design projects. Numerical methods.

0360. Engineering Seminar (1 s.h.) F.

Prerequisite: Senior standing.

Preparation for entering the professional world of engineering. Includes job placement, professional registration, ethics, professional societies, case studies, and guest speakers.

W361 and W362. Senior Design Project I and II (3 s.h. each) F S. Core: WI.

Prerequisite: English W102, senior standing in the student's department, and completion of 90 s.h..

Team oriented engineering system design problems of various types. Topics proposed and orally presented by students in the initial stage of the course sequence. At completion, the project is demonstrated during an oral presentation and a final written report.

0380-0381-0382. Co-Op Work Experience I, II, and III (2 - 4 s.h. each) F S SS.

Prerequisite: 30 semester hours of course work or sophomore standing.

Each is a prerequisite to the course that follows. 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).

0390. Independent Study in Engineering (2 - 6 s.h.) F S SS.

0398. Independent Research in Engineering (2 - 6 s.h.)