College of Engineering, Informatics, and Applied Sciences2021-2022
Department of Mechanical Engineering
Bioengineering, Doctor of Philosophy
The Bioengineering Program is uniquely broad in its objectives, as we envision that the majority of graduates from this program will fill the demand for leadership in industrial research and development. The purpose of the program is to significantly expand NAU’s research strengths in the areas of biomaterials and biomechanics research, while building capacity for basic research in the life sciences to be translated into engineering solutions in the biotechnology sector. Students will build skills and knowledge through formal course work and an original dissertation project. The goal is to foster students’ abilities to identify and synthesize fundamental principles of bioengineering and apply them to complex problems.
Student Learning Outcomes
Students will build skills and knowledge through formal course work and an original dissertation project. The goal is to foster students’ abilities to identify and synthesize fundamental principles of bioengineering and apply them to complex problems. NAU graduates with a Ph.D. in Bioengineering will have achieved the following learning outcomes:
- Critical Thinking: Demonstrate the ability to apply graduate level critical thinking skills to formulate and solve advanced bioengineering problems in the emphasis area (Biomaterials, Biomechanics, Biophysics, Informatics & Computing).
- Interdisciplinarity: Demonstrate the ability to integrate information, data, techniques, tools, perspectives, concepts, and/or theories from two or more disciplines to advance fundamental understanding or to solve problems whose solutions are beyond the scope of a single discipline or area of research practice.
- Research Design and Execution: Demonstrate the ability to independently and creatively design and conduct research studies, including synthesis of the scientific literature in the field of study, design of dissertation research, and interpretation of complex quantitative analyses.
- Oral Communication: Demonstrate the ability to communicate effectively the results of a comprehensive research project through oral presentations.
- Written Communication: Compose and engage in highly effective written communication in bioengineering; demonstrate clear argumentation and logic in a variety of written communications, including published papers and grant proposals.
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