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Course Criteria
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3.00 Credits
Analysis of water, solute, gas, and heat exchange in microcirculation and relationship between structure and function. Transport in biological porous media examined and applied to arterial wall, bone, and cartilage. Active transport across membranes considered and applied to kidney and secretary organs. Introduction to transport across cell membrane and role of receptors in transport, cell adhesion, and intracellular signaling presented. PREREQ: MEEG331, or CIEG305 in place of MEEG331.
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0.00 Credits
Lectures by invited scholars on various topics in Mechanical Engineering and related areas.
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3.00 Credits
Provides an introduction to the theory and practice of industrial design - an interdisciplinary field involving the engineering, manufacturing, and business aspects of new product development. Students will apply modeling, prototyping, and testing concepts towards creating a commercially viable product. PREREQ: ENTR601.
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3.00 Credits
Provides a foundation on various state-of-the-art computational methods and approaches that are widely used in the area of computational solid mechanics. Students will learn how to: (i) solve advanced problems of 3D elasticity under combined loading using computational approach, (ii) derive weak formulations of a set of key governing equations used at the quantum and continuum scales for describing the mechanistic behavior of solids, and (iii) apply various numerical techniques and write computer codes to solve applied problems of solid mechanics.
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3.00 Credits
Indicial notation, tensors; displacement, strain, compatibility; traction and stress, equations of motion; constitutive description of an elastic material; solutions to boundary value problems including torsion, bending, plane problems in elasticity (Airy stress function) and elements of linear elastic fracture mechanics.
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3.00 Credits
Advanced topics in nanoscience and nanotechnology including nanostructures, nanomaterial synthesis, properties, characterizations, and applications. The emphasis will be to introduce students to the science of the building blocks of nanostructured materials, material behavior when they are assembled, technology for building nanoscale structures and features, nanomaterials for energy conversion and storage, and the technological implications of these nanomaterials and nanotechnologies.
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3.00 Credits
Deals with analysis and design of flight structures and other light-weight structures. Loads, supports and reactions, constitute equations, and stress and deformation of components for flight vehicles are investigated. Overview of fatigue, vibration (flutter) and instability of structures are given.
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3.00 Credits
Introduction to composite materials; anisotropic elasticity and laminate theory; plates and panels of composite materials; beams, columns and rods; composite material shell structures; energy methods; strength and failure theories; adhesive bonding and mechanical fastening; hygrothermal effects; stress analysis, buckling, vibrations and impact.
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3.00 Credits
Fiber and matrix materials, fiber-matrix interface, polymer, metal, ceramic and carbon matrix composites, geometric aspects, elastic properties, lamination theory, strength of unidirectional composites, strength of laminates, durability, hybrid composites, flexible composites and textile structural composites.
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3.00 Credits
Reference frames, angular velocity, linear velocity, angular acceleration, linear acceleration, multibody systems, inertia properties, kinetic energy, equations of motion, generalized d'Alembert's principles, numerical integration, computer simulation.
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