Analysis of stiffness and deflection of straight and curved beams, frames, columns, and links.Data analysis, quality control and statistical hypothesis testing will be covered.Description: Study of the position, velocity, acceleration, and static and dynamic force behavior of machines and mechanisms.
Analysis and synthesis of linkages and gear trains. Characteristics and selection of power sources, including electric motors, hydraulics, pneumatics and internal combustion engines. Use of lecture concepts in designing, building, and testing machines and mechanisms. Description: Application of basic electronic laboratory measurement equipment. Selection and testing of transducers for measurement of displacement, time frequency, velocity, pressure, force, temperature, flow-rate, and vibration, for machine design applications. Design projects involving the use of analog and digital integrated circuits and construction of prototype sensors. Practice in the use of signal processing, including digital filtering and applications of Fast Fourier Transform theory. Practice in the use of computer-based data acquisition systems. Preparation of formal reports, including the presentation of plots, figures and tables. Description: An introduction to manufacturing processes including the fundamental processes of casting, forging, rolling, extrusion, drawing and metal cutting. Quantitative relationships to identify important parameters which influence a given process. Description: Identify, formulate and solve complex interdisciplinary engineering problems by applying principles of design, engineering science and mathematics. Irreversibility and availability, power cycles, refrigeration cycles, mixtures and solutions, chemical reactions, phase and chemical equilibrium, and introduction to compressible flow. Catalog BS 5973 Free And ForcedSteady and transient conduction, free and forced convection, heat exchanger design and analysis, radiation and multiphase behavior. Description: Relevant fluid properties; standard atmospheres; mathematical models of flows about bodies. Boundary layers. Propeller theory. Supersonic and hypersonic flows about wings and lifting bodies. Priority enrollment is given to Aerospace Engineering majors. Description: Introduction to aerodynamic concepts; governing equations of gas flows in one and two dimensions. Toad for oracle 133Inviscid, incompressible flow, flow over airfoils, flow over finite wings, 3D flow; Compressible flow; Basic thermodynamic and dynamic equations. Nozzle and duct flows, choking, normal and oblique shock waves, Prandtl-Meyer expansions, subsonic compressible flow over airfoils, compressible flow through nozzles, intro into viscous flows. Consideration of reliability, factors of safety, product liability, and economics. Stress analysis of mechanical components such as beams, rings, cylinders, and shafts.
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