Bachelor Degree in Biomedical Engineering at Boston University |
Boston University
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Boston University is a Private not-for-profit, 4-year or above with 31,574 students in Boston, MA.
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This school offers the following degree levels:
Bachelor degree, Masters degree, Certificates/Post-Master's Certificate, Doctor's degree, Certificates/First-Professional Certificate |
| Also, students of this school are eligible for federal aid such as Pell Grants and Direct Loans from the US Department of Education. |
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Boston University. |
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Boston University
Bachelor degree
Biomedical Engineering
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Research and teaching in the BME department primarily focus on applying engineering, computational, and analytical techniques to biological systems from the nanoscale level of DNA to the macroscopic level of organ systems. Biomedical engineers recognize that DNA base pair information coding, single molecule protein folding, cell membrane binding, auditory and visual perception, lung respiration or overall survival of the whole organism are all biological processes, and they all function in some ways as machines. Millions of years of evolution have optimized these biological processes, making these machines efficient--almost perfect--at each of their specific tasks. Biomedical engineering is the study of these machines, and most often, this study requires the biomedical engineer to understand broad interdisciplinary concepts from engineering, biology, chemistry, physics, medicine, and mathematics.
The undergraduate curriculum in biomedical engineering presently combines training in the natural sciences, mathematics, and systems physiology with rigorous training in engineering. The program emphasizes electronics, signals, systems and controls, fluid and solid mechanics, computer science and the quantitative measurement, mathematical modeling, and analysis of biological systems and processes. The faculty are particularly encouraged to develop materials that allow the students to acquire the analytical and computational tools needed for innovative work in the physical, biological, and engineering sciences. Students are challenged by exercises that test their problem solving ability. The curriculum stresses theoretical concepts, hypothesis formation and testing, experimental design issues, data acquisition, and computational approaches to data analysis and model interpretation.
The curriculum culminates with a capstone senior project experience, during which each senior completes an independent technical project under the direction of a faculty supervisor.
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Boston University.
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