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Course Criteria
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3.00 Credits
Variable credit course.
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3.00 Credits
Variable credit course.
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3.00 Credits
Variable credit course.
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3.00 Credits
3015: Fluid statics. Dimensional analysis. Control volume approach to flow analysis, pipe flow, boundary layers, compressible flow, open channel flow. 3016: Introduction to continuum mechanics. Fluid kinematics. Differential approach to flow analysis: derivation of mass, momentum and energy equations, vorticity dynamics, potential flows, compressible flows, viscous flows. Pre: 2304, (MATH 2224 or MATH 2224H) for 3015; MATH 4574, ESM 3015 for 3016. Co: ME 3134 for 3015; 3034 for 3016. (3H,3 Credits).
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3.00 Credits
Fluid properties and hydrostatics. Derivation and application of the continuity, momentum, and energy equation (Bernoulli's equation) for ideal and real fluid flow (laminar or turbulent). Dimensional analysis and similtude. Introduction to boundary layers, lift and drag. Pre: 2304, MATH 2224. (2H,2L,3 Credits). I.
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1.00 Credits
Introduction to experimental fluid mechanics. Technical writing. Experiments on fluid properties, manometry, hydrostatic forces on submerged surfaces, flow measurements, impulse-momentum principle, velocity measurements, drag forces on cylinders, model testing of ships, flow visualization and hydraulic jumps. Demonstration of modern data acquisition. Pre: 3015. (3L,1 Credits). II.
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2.00 Credits
Mechanical properties and behavior of engineering materials subjected to static, dynamic, creep and fatigue loads under environments and stress states typical of service conditions; biaxial theories of failure; behavior of cracked bodies; microstructure-property relationships and design methodologies for homogeneous and composite materials. I,II. Pre: 2204. (2H,2 Credits).
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1.00 Credits
Laboratory experiments on mechanical properties and behavior of homogenous and composite engineering materials subjected to static, dynamic, creep, and fatigue loads; behavior of cracked bodies; microstructure-property relationships, and determination of materials properties for use in engineering design. Pre: 2204. Co: 3054. (3L,1 Credits).
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3.00 Credits
Vector analysis, Newton's Laws, rotating coordinate systems, particle dynamics, orbital mechanics, systems of particles, rigid-body dynamics, inertia matrix, Eulerian angles, introduction to gyroscopic motion, Lagrange's equations. II. Pre: 2304, MATH 2214, MATH 2224. (3H,3 Credits).
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3.00 Credits
Introduction to elasticity and continuum mechanics, plane stress and plane strain; bending of beams, asymmetrical bending, deflections, shear center; torsion of general cross-section bars; comparison of elasticity solutions with strength of materials; introduction to energy methods; elastic stability of columns. Pre: 2204. (3H,3 Credits).
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