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Course Criteria
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1.00 - 6.00 Credits
No course description available.
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1.00 - 6.00 Credits
No course description available.
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6.00 Credits
Open-ended, team-based, capstone engineering design projects. Systems approach process involving defining requirements, benchmarking, concept generation and Selection, prototype fabrication, and testing. Includes safety, ethics, economic analysis, regulatory and industry standards, and Intellectual property. PREREQ: MEEG304 or BMEG360.
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6.00 Credits
Capstone engineering practice where teams develop real engineering system designs; discover customer requirements; benchmark best practices; develop engineering specifications; generate concepts; and justify aspecific concept. Design, fabricate, assemble, test and improve an actual prototype. Focus is upon successful competition at the annual spring FSAE competition. PREREQ: MEEG304. RESTRICTIONS: Open to majors only.
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3.00 Credits
This studio-based course is centered on substantively advancing early stage prototypes, from prior courses such as Senior Engineering Design, into real-world products. Work in teams on pre-Selected projects, with project deliverables and milestones agreed upon within student teams and amongst the faculty instructors. Periodic Lectures that will expose students to topics such as advanced prototyping techniques, design for manufacture, and Select entrepreneurial concepts. The latter will include end user profiling, market size estimation, cost-of-goods analysis, and building basic business models in order to guide commercialization decisions. RESTRICTIONS: Permission of instructor.
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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. PREREQ: MEEG215, or CIEG212 in place of MEEG215.
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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. PREREQ: MEEG215 or CIEG212 or permission of instructor.
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3.00 Credits
State-space analysis of linear dynamical systems. Solution of state-space equations, and analysis of structural system properties based on eigenvalues and eigenvectors. Similarity transformations and decompositions. Lyapunov stability. Observability and controllability. State feedback control design. PREREQ: MATH349 or MATH351 and MEEG311.
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3.00 Credits
Theory of the dynamics of ground vehicles. Topics include tire adhesion, slip angle, suspension analysis and design, chassis design and aerodynamics with downforce generation. PREREQ: MEEG210 or CIEG211, and MEEG211 or CIEG311. RESTRICTIONS: MEEG311 is recommended.
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