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Course Criteria
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3.00 Credits
CAS PY 211; coreq: CAS MA 225. Macroscopic treatment of the fundamental concepts of thermodynamic systems. Zeroth, first, and second laws; properties of simple compressible substances; entropy; energy availability; ideal gas mixtures and psychometrics; and thermodynamic cycles. Application to engines, refrigeration systems, and energy conversion. Includes lab. Cannot be taken for credit in addition to ENG EK 424. 4 cr.
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4.00 Credits
ENG EK 301. Introduction to stress and strain. Axial and shear loading. Torsion of shafts and thin-walled tubes. Bending of beams. Virtual work. Combined loadings. Stress and strain transformations. Column buckling. Includes lab and design project. 4 cr.
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4.00 Credits
CAS PY 212; CAS PY 313 recommended. Structure and properties of solids; crystalline structure; defect structures; atom movement and diffusion; nucleation and growth; deformation; phase diagrams; strengthening mechanisms; heat treatment; ferrous/nonferrous alloys; ceramics; polymers; composites. Includes lab. 4 cr.
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3.00 Credits
Prereq: ENG ME 305 and ENG ME 201. Elementary elasticity, plane stress and plane strain problems, torsion of rods and thin-walled open and closed section beams, unsymmetrical bending, bending shear stress in thin-walled beams, columns and beam-columns, energy theorems and applications, and intro to FEM. Cannot be taken for credit in addition to ENG ME 309 or ENG BE 420. Includes design project. 4 cr.
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3.00 Credits
CAS MA 225. Four main concepts of quality engineering-Acceptance, Sampling, Real Time Quality Control, and the Taguchi method for product quality improvement-are introduced as applications of key concepts in probability and statistics. Principles of probability and statistics including events, Bayes theorem, randoms variables, functions of random variables, sampling distributions, and parameter estimation are also covered. May not be taken for credit in addition to ENG ME 500 or ENG EC 381 or ENG BE 200. 4 cr.
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4.00 Credits
ENG EK 305. Application of solid mechanics to structures and machine elements. Elementary elasticity. Energyprinciples. Matrix and finite element methods. Stability phenomena. Modes of structural failure. Introduction to FEM. Cannot be taken for credit in addition to ENG ME 307 or ENG BE 420. Includes design project. (Formerly ENG AM 308.) 4 cr.
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4.00 Credits
ENG ME 303 and ENG EK 307. Designing, assembling, and operating experiments involving mechanical measurements; analyzing experimental data. Safety considerations in the laboratory. Wind tunnel testing. Mechanical and electrical transducers for flow, pressure, temperature, velocity, strain, and force. Electric circuits for static and dynamic analog signal conditioning. Computer use for digital data acquisition and analysis; instrument control. Professional standards for documenting experiments and preparing reports, including formal uncertainty analysis involving elementary statistics. Interpretation of experimental results. Includes lab and design project. 4 cr.
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2.00 Credits
ENG EK 301. Introduction to computer-aided design. Technical drawing in two and three dimensions. Threads and fasteners. Electromechanical interfaces and controls. Power transmission. Dimensions, tolerances, and manufacturing processes. Design analysis. Two required design projects. 2 cr.
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2.00 Credits
ENG EK 301. The engineering design process. Modeling and simulation. Engineering economics. Statistical decisions. Safety and environmental protection. Engineering ethics. Cams and bearings, gears, time and motion studies. Includes design project. 2 cr.
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4.00 Credits
ENG EK 156. An introduction to the main aspects of modern computer-based design and manufacturing of discrete parts: computer-aided design and computer-aided manufacturing techniques, numerically controlled machines, automated material handling and robotic control, computer vision, statistical process control, programmable logic control, discrete event system models and computer simulation. Strong emphasis on hands-on laboratory experience, with a lecture component supporting the laboratory exercises and projects. Includes lab. 4 cr.
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