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Course Criteria
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3.00 Credits
Explains key concepts and elements of basic processes (metal cutting, forming, plastic molding), technologies (robotics, ergonomics, material handling, quality management, machine vision), industries/systems (pharmaceutical, automotive, packaging, food, and current advances (lean mfg., just-in-time). PREREQ: MEEG321 or permission of instructor.
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3.00 Credits
Emphasizes fundamental aspects of materials properties and Selections, design and engineering principles, processes of a variety of additive manufacturing (AM) as well as latest emerging AM technologies, and their applications in biomedical devices, aerospace, printable electronics, and consumer products. Polymer, metal, ceramic, and composite AM technologies will be discussed. Popular press articles and technical papers on AM will be reviewed and discussed. PREREQ: MEEG321.
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3.00 Credits
Fundamental principles and an application involving composites manufacturing are introduced. Modeling of such processes is emphasized and a specific projected is required. Assignments include open-ended problems. Areas of manufacturing include: injection molding, compression molding, filament winding, pultrusion and resin transfer molding. PREREQ: MEEG331 and MEEG342.
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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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3.00 Credits
This course considers problems in perception, planning, and control, and their systems-level integration in the context of self-driving vehicles through an open-source curriculum for autonomy education that emphasizes hands-on experience. Integral to the course, students will collaborate to implement concepts covered in Lecture on a low-cost autonomous vehicle with the goal of navigating a model town complete with roads, signage, traffic lights, obstacles, and citizens. PREREQ: MEEG 311 and MEEG 312
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3.00 Credits
Cell, the universal unit of life, behaves as a "mechanical living" entity. Besides sensing "smell or taste" mediated by chemical reactions, cells also display a strong sense of "touch" mediated by mechanical interactions. Mechanics is involved in many fundamental processes such as cell shape, mobility, and differentiation. In this course, the students will be exposed to the principles of cytomechancis and the fascinating cellular responses and adaptation to the mechanical environment. PREREQ: BISC207 and MEEG215 or instructor's approval.
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3.00 Credits
The biomechanics and patho-mechanics of various human musculoskeletal joint systems. Normal joint anatomy and biomechanics; the mechanical effects of pathology and the goals of surgical repairs to counteract them will be explored through in vitro, in vivo and mathematical modeling studies of joint system mechanics.
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3.00 Credits
Anatomy and physiology including microanatomy and mechanics of bone, cartilage, tendon and muscle. Mechanical modeling of body including joint loads, motion analysis, muscle forces and interaction with orthopaedic devices. PREREQ: MEEG211 and MEEG215 or graduate standing.
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3.00 Credits
Biomaterials for mechanical replacement of Orthopaedic tissues: bone, cartilage, ligament, tendon and whole joint systems. Topics include normal tissue mechanics and biocompatibility, mechanical behavior, degradation and host response to biomaterials. Experimental methods to assess biomaterials along with design and manufacturing considerations for joint and tissue replacements.
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