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Course Criteria
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1.00 - 3.00 Credits
(Credit as arranged.)
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1.00 - 4.00 Credits
Involvement in intensive internships with professional dance companies, private studios, festivals, workshops or clinics to bridge the academic and professional lives. Internships may be scheduled for varying lengths of time.
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3.00 Credits
Preproduction conception in area of specialization researched and documented under appointed advisement, in accord with production syllabus, and subcommittee approval.
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3.00 Credits
Production implementation, post production evaluation/defense, and advisory assessment.
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1.00 - 12.00 Credits
Research and development of a Master of Arts project in Dance.
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3.00 Credits
This course is intended to introduce Freshmen to a wide variety of biomedical engineering fields including: biomaterials, tissue engineering, drug delivery systems, biomedical imaging and processing, cardiac measurement and analysis, neural engineering, neuromuscular control, and systems biology. Topics span research, development, and design for diagnostic and therapeutic applications. Prereq: Freshman standing.
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3.00 Credits
This course (1) teaches cell physiology from an engineering perspective - basics covered include cell structures and functions, genes and protein synthesis, diffusion fundamentals, electrical properties of neural and muscle cells, sensory transduction, and integration of function on the micro and macro scale; (2) teaches how to use engineering tools to model different cell functions and predict, measure, and control cell behavior; (3) introduces mathematical and graphical analysis of specific physiological systems emphasizing applied modeling and simulation. Prereq: Must have declared major or minor in Biomedical Engineering, or requisites not met permission.
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3.00 Credits
This course is an extension of EBME 201 that will extend the application of system modeling and simulation to complex physiological systems in a clinical environment. The course will cover models of biochemical systems with pathology, muscle, the cardiovascular system, respiratory system, renal and hepatic systems with pathology and clinical applications. Prereq: EBME 201 or consent of instructor.
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3.00 Credits
This course will introduce students to dynamic biological phenomena, from the molecular to the population level, and models of these dynamical phenomena. It will describe a biological system, discuss how to model its dynamics, and experimentally evaluate the resulting models. Topics will include molecular dynamics of biological molecules, kinetics of cell metabolism and the cell cycle, biophysics of excitability, scaling laws for biological systems, biomechanics, and population dynamics. Mathematical tools for the analysis of dynamic biological processes will also be presented. Students will manipulate and analyze simulations of biological processes, and learn to formulate and analyze their own models. This course satisfies a laboratory requirement for the biology major. Offered as BIOL 300 and EBME 300.
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3.00 Credits
Structure of proteins, nucleic acids, connective tissue and bone, from molecular to microscopic levels. An introduction to bioengineering biological materials and biomimetic materials, and an understanding of how different instruments may be used for imaging, identification and characterization of biological materials. Offered as: EBME 303 and EMAC 303. Recommended preparation: EBME 201, EMBE 202, and EMAC 270.
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