Undergraduate Courses

EGPP-101 Introduction to Engineering, 2 Credits
Provides information on engineering education, the engineering profession, and basic concepts and tools. Introduces the engineering design process and provides the opportunity for students to complete engineering design projects.

MEEG-102 Introduction to Engineering II, 1 Credit Continuation of EGPP-101. Prerequisite: EGPP-101.

MEEG-103 Engineering Graphics, 2 Credits
Introduction to engineering drawing and descriptive geometry, space visualization and coordinate systems, conventions, projection drawings, freehand sketching, vectors, and graphical mathematics. Freehand, instrument, and computer techniques are used.

MEEG-202 Product Development I, 2 Credits
Treats different stages in developing a product including identification of customer need, product specifications, design conceptualization, product architecture and design for manufacturing. Also discusses effective prototyping and economics of product development. Prerequisite: MEEG-102.

MEEG-203 Product Development II, 3 Credits
Manufacturing processes including metal casting, rolling, forging, sheet metal forming, material removal processes, polymer processing, and joining techniques will be discussed. Also, surface treatment techniques will be treated. Laboratory provides hands on experience in conventional machining, polymer processing, and composite manufacturing. Prerequisite: MEEG-103

MEEG-204 Solid Mechanics, 3 Credits
Presents basic concepts of stress and strain of deformable bodies, state of stress and strain, Mohr’s circle, and bending of prismatic bars, among other topics. Prerequisite: CIEG-202; Co-requisite: MATH-159.

MEEG-205 Thermodynamics, 3 Credits
Presents basic thermodynamic concepts and definition, laws of thermodynamics, properties of pure substances, and entropy and availability. Introduction to statistical thermodynamics. Prerequisites: PHYS-014, MATH-158.

MEEG-306 Applied Thermodynamics, 3 Credits
Study of mixtures, combustion, power cycles, gas turbines, and compressors; reciprocating engines, refrigeration, and reactive systems. Introduction to Onsager’s relations and direct energy conversion. Laboratory work included. Prerequisite: MEEG-205.

MEEG-307 Fluid Mechanics I, 3 Credits
Includes properties and mechanics of fluids; kinematics; and control volume continuity, momentum, and moment of momentum equations. Prerequisites: MATH-159, CIEG-302.

MEEG-308 Aerofluid Dynamics, 3 Credits
Potential flow theory and compressible flow; circulation, vorticity and wing theory, shock waves, expansion waves and nozzles; introduction to boundary layer theory and applications. Prerequisites: MEEG-205, MEEG-307.

MEEG-309 Material Science, 3 Credits
Correlation of the structure of metals, ceramics, and organic materials with their mechanical and physical properties; control of properties by modifying the microstructure, and stability of materials in service environments. Prerequisites: CHEM-003, PHYS-014.

MEEG-310 Mechanical Design I, 3 Credits
Mechanical Design I. Integration of knowledge of strength of materials in a design context, stress and deflections in engineering structures. Theories of failure. Introduction to the design of machine components, such as screws, fasteners, bolts, welded joints, shafts, axles, and mechanical springs. Prerequisites: MEEG-203, MEEG-204; Co-requisite: MEEG-309.

MEEG-311 Mechanical Design II, 3 Credits
Discusses frictional and wear considerations in design of mechanical systems. Also covers design of rolling contact bearing, journal bearings, spur, helical, bevel, and worm gears, clutches and brakes, flexible mechanical elements; hydrodynamic lubrication. Prerequisite: MEEG-310.

MEEG-313 System Dynamics and Controls, 4 Credits
Introduction to modern control theory, including digital control and nonlinear system analysis. Mathematical modeling of physical systems with mechanical, fluid, thermal and/or electrical elements. Classical feedback control theory and design, and their application to practical electromechanical and aerospace problems. Prerequisites: CIEG-302, MEEG-205, MEEG-307, MATH-159.

MEEG-315 Experimentation I, 2 Credits
Basic principles of instruments and sensors employed in engineering measurements. Nature of experimental error and uncertainty analysis. Prerequisites: ELEG-204, ELEG-310, MATH-159.

MEEG-318 Propulsion, 3 Credits
Power cycles, combustion fundamentals, aircraft and missile propulsion, engines compressors and turbines. Prerequisite: MEEG-306.

MEEG-403 Heat Transfer, 3 Credits
Analytical and numerical treatment of heat transfer by conduction, convection, and radiation; steady and unsteady state heat flow; condensing vapors; and boiling liquids. Prerequisites: MEEG-205, MEEG-307.

MEEG-415 Experimentation II, 2 Credits
Fundamentals of computer based data acquisition and application of digital techniques to mechanical measurements. Prerequisite: MEEG-315.

MEEG-416 Aerostructures, 3 Credits
Static analysis of aerospace structures; external loading and environment; failure theories of materials; deflection of unsymmetrical cross-section beams; thermal stress; torsion of thin-walled sections; stiffened shell structures, buckling of columns and plates; introduction to dynamic analysis. Prerequisites: MATH-158, MATH-159, MEEG-204.

MEEG-417 Experimentation III, 2 Credits
Experiments designed to expose students to experimental techniques applicable in evaluation of the behavior mechanical and thermal systems. Prerequisite: MEEG-415.

MEEG-418 Vibration Analysis, 3 Credits
Covers single DOF, two DOF and multi-DOF systems of vibration analysis, mode shape functions, numerical solutions and software packages. Prerequisite: CIEG-202.

MEEG-421. Product Data Management. 3 Credits
Participants will study topics fundamental to global collaborative engineering, product data management, and collaborative product data management. These topics will be applied during team projects utilizing state of the art collaborative engineering and product data management software and hardware technologies. This course may also contain live online video lectures originating from participating universities. Prerequisite: MEEG-311.

MEEG-438 Environmental Control, 3 Credits
Analysis and design of heating, cooling, ventilation, and air distribution systems, including physiological and climatic factors, along with such new concepts of thermal systems as solar energy, total energy, and energy conservation. Prerequisite: Senior Standing.

MEEG-441 Senior Project I, 3 Credits
Independent team design study of current interest under supervision of faculty members. Report must be submitted for review by mechanical engineering faculty before graduation. Prerequisite: MEEG-311.

MEEG-442 Senior Project II, 3 Credits
Team design study. Continuation of MEEG-441. Prerequisite: MEEG-441.

MEEG-443 CAD/CAM, 3 Credits
Fundamentals of computer graphics and introduction to computer aided design software and solid modeling. Fundamentals of machining, numerical control and numerical control programming. Laboratory provides hands on experience in computer integrated manufacturing and CNC milling and turning. Prerequisite: MEEG-311.

MEEG-444 Robotics, 3 Credits
Kinematics and dynamics of robot manipulators, robot programming languages, structural members; fatigue, creep, and stress team or design study of current interest. Prerequisite: MEEG-313.

MEEG-445 Undergraduate Research I, 3 Credits
Analysis, design and/or experimentation in Instructor’s area of interest. Prerequisite: Consent of Instructor.

MEEG-446 Undergraduate Research II, 3 Credits
Analysis, design and/or experimentation in Instructor’s area of interest. Prerequisite: Consent of Instructor.

MEEG-447 Computational Fluid Dynamics, 3 Credits
Solutions to fluid flow problems using computers. Students will gain familiarity with numerical methods and acquire experience in solving fluid mechanics and heat transfer problems using computers. Prerequisites: MEEG-307, MEEG-403.

MEEG-461 Energy Engineering I, 3 Credits
Introduction to modern energy sources useful for engineering applications. Includes fossil, nuclear, solar, wind, geothermal and biomass. Prerequisites: MEEG-205, MEEG-307.

MEEG-462 Energy Engineering II, 3 Credits
Analysis of current practices governing use of energy sources. Effective utilization and economic considerations are discussed. New and emerging technologies (such as synfuels and cogeneration) are discussed. Prerequisite: MEEG-306.

MEEG-990/991 Co-op Mechanical Engineering, 1-12 credits
For students enrolled in the Cooperative Education Program during time spent in industry. Credit may be awarded based on evaluation of employer(s) and a written report by the student.
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