Mechanical Engineering (M E) - M E 1: Cooperative Education Program
- M E 132: Machine Shop and Welding
- M E 160: Architectural Graphics
- M E 170: Civil Engineering Graphics
- M E 231: Introductory Engineering Graphics
- M E 232: Geometric Modeling for Engineering Applications
- M E 240: Dynamics
- M E 291: Ungergraduate Mechanical Engineering Projects
- M E 299: Independent Study
- M E 306: Mechanics of Materials
- M E 307: Mechanics of Materials Lab
- M E 313: Manufacturing Processes
- M E 314: Manufacturing Fundamentals
- M E 321: Energy Conversion Technologies
- M E 331: Geometric Modeling for Engineering Applications
- M E 340: Introduction to Dynamic Systems
- M E 342: Design of Machine Elements
- M E 349: Engineering Design Projects
- M E 350: Advanced Graphic Analysis
- M E 351: Interdisciplinary Experiential Design Projects I
- M E 352: Interdisciplinary Experiential Design Projects II
- M E 361: Thermodynamics
- M E 363: Fluid Dynamics
- M E 364: Elementary Heat Transfer
- M E 368: Engineering Measurements and Instrumentation
- M E 370: Energy Systems Laboratory
- M E 371: Thermosciences Laboratories for Nuclear Engineers
- M E 379: Mechanical Dissection
- M E 409: Introductory Feedback Control Laboratory
- M E 417: Introduction to Polymer Processing
- M E 418: Engineering Design with Polymers
- M E 419: Fundamentals of Injection Molding
- M E 421: Energy Conversion Technologies
- M E 424: Statistical Experimental Design
- M E 425: Undergraduate Rheology Seminar
- M E 426: Reliability
- M E 429: Metal Cutting
- M E 435: Joining of Materials: Structural, Electronic, Bio and Nano Materials
- M E 437: Advanced Welding Processes and Materials Selection
- M E 439: Introduction to Robotics
- M E 440: Intermediate Vibrations
- M E 441: Rheology of Foods and Biomaterials
- M E 444: Design Problems in Elasticity
- M E 446: Automatic Controls
- M E 447: Computer Control of Machines and Processes
- M E 448: Mechanical Systems Analysis
- M E 450: Design and Dynamics of Vehicles
- M E 451: Kinematics and Dynamics of Machine Systems
- M E 453: Value Engineering I
- M E 458: Computer Graphics
- M E 461: Thermal Systems Modeling
- M E 462: Welding Metallurgy
- M E 466: Air Pollution Effects, Measurements and Control
- M E 467: Refrigeration
- M E 468: Building Energy Management and Space Conditioning
- M E 469: Internal Combustion Engines
- M E 470: Optical Applications in Mechanical Engineering
- M E 471: Gas Turbines and Jet Propulsion
- M E 475: Engineering Principles of Agricultural Machinery
- M E 476: Engineering Principles of Off-Road Vehicles
- M E 477: Energy Utilization Technology
- M E 489: Honors in Research
- M E 491: Mechanical Engineering Projects I
- M E 492: Mechanical Engineering Projects II
- M E 508: Composite Materials
- M E 510: Facilities Planning
- M E 512: Inspection, Quality Control and Reliability
- M E 513: Analysis of Capital Investments
- M E 514: Rapid Prototyping and Advanced Manufacturing
- M E 520: Two-Phase Flow and Heat Transfer
- M E 525: Macromolecular Hydrodynamics
- M E 532: Theory and Applications of Pattern Recognition
- M E 535: Atmospheric Dispersion and Air Pollution
- M E 539: Introduction to Artificial Neural Network and Fuzzy Systems
- M E 540: Experimental Vibration and Dynamic System Analysis
- M E 545: Fluid Power
- M E 549: Product Design
- M E 550: Advanced Nuclear Power Engineering
- M E 552: Energy Methods in Mechanics
- M E 558: Introduction to Computational Geometry
- M E 561: Intermediate Thermodynamics
- M E 563: Intermediate Fluid Dynamics
- M E 564: Heat Transfer
- M E 565: Power Plant Technology
- M E 566: Cryogenics
- M E 567: Solar Energy Technology
- M E 569: Applied Combustion
- M E 570: Experimental Mechanics
- M E 572: Intermediate Gas Dynamics
- M E 573: Computational Fluid Dynamics
- M E 577: Automatic Controls Laboratory
- M E 601: Special Topics in Mechanical Engineering
- M E 602: Special Topics in Environmental Aspects of Mechanical Engineering
- M E 603: Topics in Bio-Medical Engineering
- M E 641: Design and Analysis of Manufacturing Systems
- M E 643: Performance Analysis of Manufacturing Systems
- M E 699: Advanced Independent Study
- M E 702: Graduate Cooperative Education Program
- M E 706: Plates, Shells and Pressure Vessels
- M E 708: Advanced Composite Materials
- M E 712: Quality Product and Process Design
- M E 714: Advanced Materials Processing and Manufacturing
- M E 717: Advanced Polymer Processing
- M E 718: Modeling and Simulation in Polymer Processing
- M E 722: Introduction to Polymer Rheology
- M E 735: Computer Integrated Concurrent Design
- M E 739: Advanced Automation and Robotics
- M E 740: Advanced Vibrations
- M E 746: Dynamics of Controlled Systems
- M E 747: Advanced Computer Control of Machines and Processes
- M E 748: Optimum Design of Mechanical Elements and Systems
- M E 749: Mathematical Models and Response Surface Methodology I
- M E 750: Mathematical Models and Response Surface Methodology II
- M E 751: Matrix Methods in the Design and Analysis of Mechanisms
- M E 758: Solid Modeling
- M E 759: High Performance Computing for Applications in Engineering
- M E 761: Topics in Thermodynamics
- M E 764: Advanced Heat Transfer I-Conduction
- M E 765: Advanced Heat Transfer II-Convection
- M E 766: Advanced Heat Transfer III Radiation
- M E 769: Combustion Processes
- M E 770: Advanced Experimental Instrumentation
- M E 772: Advanced Gas Dynamics
- M E 773: Boundary Layer Theory
- M E 774: Chem Kinetics of Combust Systems
- M E 775: Turbulent Heat and Momentum Transfer
- M E 780: Robot Motion Planning
- M E 790: Master's Research and Thesis
- M E 806: Mechanical Instability
- M E 824: Nonlinear Regression Analysis with Engineering Applications
- M E 825: Molecular Network Theories for Polymeric Materials
- M E 890: PhD Research and Thesis
- M E 903: Graduate Seminar
- M E 925: Rheology Research Seminar
- M E 964: Special Advanced Topics in Mechanical Engineering
- M E 990: Dissertator Research and Thesis
- M E 999: Advanced Independent Study
Mechanical Engineering (M E)
- M E 1: Cooperative Education Program
- M E 132: Machine Shop and Welding
- M E 160: Architectural Graphics
- M E 170: Civil Engineering Graphics
- M E 231: Introductory Engineering Graphics
- M E 232: Geometric Modeling for Engineering Applications
- M E 240: Dynamics
- M E 291: Ungergraduate Mechanical Engineering Projects
- M E 299: Independent Study
- M E 306: Mechanics of Materials
- M E 307: Mechanics of Materials Lab
- M E 313: Manufacturing Processes
- M E 314: Manufacturing Fundamentals
- M E 321: Energy Conversion Technologies
- M E 331: Geometric Modeling for Engineering Applications
- M E 340: Introduction to Dynamic Systems
- M E 342: Design of Machine Elements
- M E 349: Engineering Design Projects
- M E 350: Advanced Graphic Analysis
- M E 351: Interdisciplinary Experiential Design Projects I
- M E 352: Interdisciplinary Experiential Design Projects II
- M E 361: Thermodynamics
- M E 363: Fluid Dynamics
- M E 364: Elementary Heat Transfer
- M E 368: Engineering Measurements and Instrumentation
- M E 370: Energy Systems Laboratory
- M E 371: Thermosciences Laboratories for Nuclear Engineers
- M E 379: Mechanical Dissection
- M E 409: Introductory Feedback Control Laboratory
- M E 417: Introduction to Polymer Processing
- M E 418: Engineering Design with Polymers
- M E 419: Fundamentals of Injection Molding
- M E 421: Energy Conversion Technologies
- M E 424: Statistical Experimental Design
- M E 425: Undergraduate Rheology Seminar
- M E 426: Reliability
- M E 429: Metal Cutting
- M E 435: Joining of Materials: Structural, Electronic, Bio and Nano Materials
- M E 437: Advanced Welding Processes and Materials Selection
- M E 439: Introduction to Robotics
- M E 440: Intermediate Vibrations
- M E 441: Rheology of Foods and Biomaterials
- M E 444: Design Problems in Elasticity
- M E 446: Automatic Controls
- M E 447: Computer Control of Machines and Processes
- M E 448: Mechanical Systems Analysis
- M E 450: Design and Dynamics of Vehicles
- M E 451: Kinematics and Dynamics of Machine Systems
- M E 453: Value Engineering I
- M E 458: Computer Graphics
- M E 461: Thermal Systems Modeling
- M E 462: Welding Metallurgy
- M E 466: Air Pollution Effects, Measurements and Control
- M E 467: Refrigeration
- M E 468: Building Energy Management and Space Conditioning
- M E 469: Internal Combustion Engines
- M E 470: Optical Applications in Mechanical Engineering
- M E 471: Gas Turbines and Jet Propulsion
- M E 475: Engineering Principles of Agricultural Machinery
- M E 476: Engineering Principles of Off-Road Vehicles
- M E 477: Energy Utilization Technology
- M E 489: Honors in Research
- M E 491: Mechanical Engineering Projects I
- M E 492: Mechanical Engineering Projects II
- M E 508: Composite Materials
- M E 510: Facilities Planning
- M E 512: Inspection, Quality Control and Reliability
- M E 513: Analysis of Capital Investments
- M E 514: Rapid Prototyping and Advanced Manufacturing
- M E 520: Two-Phase Flow and Heat Transfer
- M E 525: Macromolecular Hydrodynamics
- M E 532: Theory and Applications of Pattern Recognition
- M E 535: Atmospheric Dispersion and Air Pollution
- M E 539: Introduction to Artificial Neural Network and Fuzzy Systems
- M E 540: Experimental Vibration and Dynamic System Analysis
- M E 545: Fluid Power
- M E 549: Product Design
- M E 550: Advanced Nuclear Power Engineering
- M E 552: Energy Methods in Mechanics
- M E 558: Introduction to Computational Geometry
- M E 561: Intermediate Thermodynamics
- M E 563: Intermediate Fluid Dynamics
- M E 564: Heat Transfer
- M E 565: Power Plant Technology
- M E 566: Cryogenics
- M E 567: Solar Energy Technology
- M E 569: Applied Combustion
- M E 570: Experimental Mechanics
- M E 572: Intermediate Gas Dynamics
- M E 573: Computational Fluid Dynamics
- M E 577: Automatic Controls Laboratory
- M E 601: Special Topics in Mechanical Engineering
- M E 602: Special Topics in Environmental Aspects of Mechanical Engineering
- M E 603: Topics in Bio-Medical Engineering
- M E 641: Design and Analysis of Manufacturing Systems
- M E 643: Performance Analysis of Manufacturing Systems
- M E 699: Advanced Independent Study
- M E 702: Graduate Cooperative Education Program
- M E 706: Plates, Shells and Pressure Vessels
- M E 708: Advanced Composite Materials
- M E 712: Quality Product and Process Design
- M E 714: Advanced Materials Processing and Manufacturing
- M E 717: Advanced Polymer Processing
- M E 718: Modeling and Simulation in Polymer Processing
- M E 722: Introduction to Polymer Rheology
- M E 735: Computer Integrated Concurrent Design
- M E 739: Advanced Automation and Robotics
- M E 740: Advanced Vibrations
- M E 746: Dynamics of Controlled Systems
- M E 747: Advanced Computer Control of Machines and Processes
- M E 748: Optimum Design of Mechanical Elements and Systems
- M E 749: Mathematical Models and Response Surface Methodology I
- M E 750: Mathematical Models and Response Surface Methodology II
- M E 751: Matrix Methods in the Design and Analysis of Mechanisms
- M E 758: Solid Modeling
- M E 759: High Performance Computing for Applications in Engineering
- M E 761: Topics in Thermodynamics
- M E 764: Advanced Heat Transfer I-Conduction
- M E 765: Advanced Heat Transfer II-Convection
- M E 766: Advanced Heat Transfer III Radiation
- M E 769: Combustion Processes
- M E 770: Advanced Experimental Instrumentation
- M E 772: Advanced Gas Dynamics
- M E 773: Boundary Layer Theory
- M E 774: Chem Kinetics of Combust Systems
- M E 775: Turbulent Heat and Momentum Transfer
- M E 780: Robot Motion Planning
- M E 790: Master's Research and Thesis
- M E 806: Mechanical Instability
- M E 824: Nonlinear Regression Analysis with Engineering Applications
- M E 825: Molecular Network Theories for Polymeric Materials
- M E 890: PhD Research and Thesis
- M E 903: Graduate Seminar
- M E 925: Rheology Research Seminar
- M E 964: Special Advanced Topics in Mechanical Engineering
- M E 990: Dissertator Research and Thesis
- M E 999: Advanced Independent Study
M E 1: Cooperative Education Program Catalog Description:
Work experience which
combines classroom theory with practical knowledge of operations to
provide students with a background upon which to base a professional
career in industr
Work experience which combines classroom theory with practical knowledge of operations to provide students with a background upon which to base a professional career in industr
M E 132: Machine Shop and Welding Catalog Description:
Practical experience
in various machine shop, welding, and sheet metal operations; also
includes blueprint reading, glass blowing, metal coating, brazing,
plastic forming, and metal spinning.
Practical experience in various machine shop, welding, and sheet metal operations; also includes blueprint reading, glass blowing, metal coating, brazing, plastic forming, and metal spinning.
M E 160: Architectural Graphics Catalog Description:
The skill of
communicating through the graphic media of freehand and instrumental
drawing. Architectural presentation, isometric, perspective and shades
and shadows.
The skill of communicating through the graphic media of freehand and instrumental drawing. Architectural presentation, isometric, perspective and shades and shadows.
M E 170: Civil Engineering Graphics Catalog Description:
To develop an
awareness of and appreciation for work that is characteristic of civil
engineering. Graphical communication including lettering, drawing
equipment and techniques; geometric construction, orthographic
projections, pictorial drawing, and technical sketching, isometric,
oblique and perspective projections, descriptive geometry,
computer-aided design drawing, applications to civil engineering
problems
To develop an awareness of and appreciation for work that is characteristic of civil engineering. Graphical communication including lettering, drawing equipment and techniques; geometric construction, orthographic projections, pictorial drawing, and technical sketching, isometric, oblique and perspective projections, descriptive geometry, computer-aided design drawing, applications to civil engineering problems
M E 231: Introductory Engineering Graphics Catalog Description:
A freshman level
course which provides the undergraduate engineering student with a
background in descriptive geometry, orthographic projection, engineering
drawing standards and annotation, and computer-aided engineering
graphics. Point line and plane relationships in projection; multi-view
engineering drawings; auxiliary and section views; basic dimensioning
and annotation; engineering applications.
A freshman level course which provides the undergraduate engineering student with a background in descriptive geometry, orthographic projection, engineering drawing standards and annotation, and computer-aided engineering graphics. Point line and plane relationships in projection; multi-view engineering drawings; auxiliary and section views; basic dimensioning and annotation; engineering applications.
M E 232: Geometric Modeling for Engineering Applications Catalog Description:
A sophomore level
course which will provide the undergraduate engineering student with a
working background in the principles and applications of three
dimensional geometric modeling and its relationship to computer-aided
design and manufacturing. It will also provide an introduction to the
techniques of mechanical fastener specification, geometric and
positional tolerancing.
A sophomore level course which will provide the undergraduate engineering student with a working background in the principles and applications of three dimensional geometric modeling and its relationship to computer-aided design and manufacturing. It will also provide an introduction to the techniques of mechanical fastener specification, geometric and positional tolerancing.
M E 240: Dynamics Catalog Description:
Rectilinear and
curvilinear motion of a particle; force, mass, acceleration; work,
potential, and kinetic energy; impulse and momentum; kinematics of rigid
bodies; moving coordinate systems with relative motion; general planar
rigid body kinematics and kinetics. Applications to linkages, cams and
geared systems.
Rectilinear and curvilinear motion of a particle; force, mass, acceleration; work, potential, and kinetic energy; impulse and momentum; kinematics of rigid bodies; moving coordinate systems with relative motion; general planar rigid body kinematics and kinetics. Applications to linkages, cams and geared systems.