Biology studies the variety and complexity of life. Physics looks for mathematical laws of nature and makes detailed predictions about the forces at play. When you put them together, the result is a powerful tool for analyzing the patterns of life and gaining insight on the “how,” “why,” and “what may be next.”
Biophysics has revolutionized modern medicine, leading to the development of various techniques for imaging the human body and treating disease. A few of these breakthroughs include the discovery of the DNA double helix as well as the development of magnetic resonance imaging (MRI), ultrasound, laser therapy, nuclear medicine, and radiation therapy.
The Biophysics concentration at Drake is a highly interdisciplinary program that draws on methodologies from physics, biology, chemistry, medicine, and computational sciences. The program will prepare you to apply the theories and methods of physics to biological questions at the molecular, cellular, and systems levels. At completion, you’ll have a deep understanding of the molecular mechanisms of biological processes; the physical principles underlying life, disease, and the diagnostic treatment of disease; and the analytical skills to understand and apply the cutting-edge, physics-derived methodologies in biophysical and biomedical research.
This concentration pairs well with other disciplines, such as Physics; Astronomy; Biology; Chemistry; Biochemistry, Cell, and Molecular Biology; Psychology; Pharmacy; Health Sciences; and generally any field in which application of physics to biological systems is useful.
This concentration requires 29–30 credit hours. Coursework also includes a Research Participation Capstone.
Biophysical principles and methods are widely used in basic research done in academia, biotechnology companies, and medical research institutes. The concentration also provides a strong background for further studies in biophysics, biomechanics, medical fields, and other areas.
Potential career paths for students interested in biophysics include basic or applied research (such as biophysics, applied physics, biomedical engineering, computational biology, neurobiology, physiology, etc.); professional schools in medicine, health sciences, business, etc.; or immediate professional positions in biomedical research and biotech institutes or companies.
The highly interdisciplinary character of a biophysics degree means that biophysicists can work in a wide variety of research fields. A biophysics background is also a very strong foundation for further training in a medical field, such as medicine and physical therapy.
Training in biophysics is also likely to provide a competitive advantage for students interested in pursuing a combined M.D./Ph.D. advanced degree.
Apply Now - Application for Fall 2017
Visit Now - Campus visits offered Monday-Friday
Available Now - FAFSA for Fall 2017
Mid-October - Application & scholarship review begins for Fall 2017 students
October 20 - Campus Preview Half-Day
October 21 - Campus Preview Half-Day
October 28 - Project Teach: Visit and View Teacher Ed@Drake
October 29 - Politics Visit Day
November 4 - Business BlueChip Expo Visit Day
November 5 - STEM@Drake Visit Day
November 14 - Campus Preview Day
December 1 - Early Action Priority Deadline