Do students in the B.S. biophysical sciences program get hands-on lab and computational experience?

Yes! Students in the biophysical sciences program ��ý receive extensive hands-on lab and computational experience as part of their required coursework. The program features mandatory laboratory courses and opportunities to work in <a href="/dedman/academics/departments/biological-sciences/research">faculty research</a> labs in such areas as cancer and neuroscience. The curriculum includes computational courses that give hands-on training with computer modeling and simulations.

B.S. biophysical sciences

Overview

The at ��ý a rigorous degree program that provides a strong foundation for careers in medicine or research. Whether your goal is medical school, an M.D.-Ph.D. program or graduate studies in biophysics, this program will give you the preparation you need for rewarding careers beyond college. With courses in biology, chemistry, physics, mathematics and from the Simmons School of Education and Human Development, the degree plan includes the entire SMU pre-health curriculum and additional courses that provide advanced learning needed for post-college preparation.

In addition to an already robust curriculum of lab work, selected students may also apply to the SMU-UT Southwestern Undergraduate Research Fellowship Program. This program is designed to provide students (fellows) with a unique opportunity to perform scientific research at the under the guidance of UTSW faculty and an SMU faculty mentor. Fellows conduct this research on the UTSW campus while remaining a full-time SMU student.

Top 20%

Best National Universities

U.S. ��ý & World Report (2026)

11:1

undergraduate student-to-faculty ratio

90+

undergraduate majors at Dedman College of Humanities and Sciences

Admissions

Deadlines and details

Key dates and admissions information to help plan your application with confidence.

Transfer students

Everything transfer students need to know about admission requirements.

International students

All the essential admission requirements international students need to know.

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Tuition and financial aid

2 out of 3 first-year students are awarded grants and/or scholarships with an average total of $38,598.

Tuition and costs

Explore the cost breakdown of tuition for undergraduate programs.

Financial aid

Find information on scholarships and financial support available ��ý.

Curriculum and learning

Featured courses

CHEM 4382

Physical Chemistry of Proteins

Discusses the fundamental aspects of techniques used to interrogate the thermodynamics and kinetics of protein conformational changes, with emphasis on atomic resolution structural techniques.

CHEM 4317

Introduction to Molecular Modeling and Computer-Assisted Drug Design

Presents a thorough and in-depth overview of methods and techniques in computer-assisted drug design.

APSM 3321

Biomechanics

Introduces the mechanical basis of function and dysfunction in human movement. Newtonian mechanics and musculoskeletal biology are integrated to provide the necessary foundation for clinical and performance-based professions.

Outside the classroom

Internships

Get practical experience to develop industry skills and build a professional network.
Study abroad

Expand your personal and academic experiences by studying in another part of the world. Take the opportunity to immerse yourself in different cultures and gain global perspectives.
Clubs and organizations

Explore interests, develop leadership skills and connect with like-minded peers.
Community engagement

Apply your classroom knowledge to real-world issues while making a positive impact.

Student success

Students with a Bachelor of Science in biophysical sciences from Dedman College know they leave the program with a strong foundation for careers in medicine or research. The interdisciplinary approach to the curriculum and extensive lab and computational experience give them the skills needed to go on to advanced study and rewarding careers.

Faculty

The biophysical sciences faculty at ��ý an interdisciplinary team of professors and lecturers from the Departments of Chemistry, Biology, Mathematics and Physics and the Simmons School of Education and Human Development, focusing on hands-on undergraduate research, personalized instruction and active mentorship.

SMU faculty members also work closely with UTSW faculty to facilitate the SMU-UT Southwestern Undergraduate Research Fellowship Program, serving as mentors to student fellows in the program.

Allison McCarn Deiana

Associate Professor

Matthew Klein

Assistant Professor of Experimental Particle Physics

David Y. Son

Professor and Chair

Peng Tao

Professor

Heidi Wu

Assistant Professor of Cosmology

Brian Zoltowski

Professor

Facilities

Dedman College’s 16 academic departments can be found across 10 different buildings ��ý. Biophysics majors will find their instructional classrooms, faculty offices and labs concentrated in the northwest corner of the SMU campus in the Dedman Life Sciences Building, the Fondren Science Building and Dallas Hall.

Dedman Life Sciences Building

Dedman Life Sciences Building is located in the Science Quad. It houses classrooms, research and teaching labs, computer labs, and faculty offices for the Department of Biological Sciences as well as the offices of the University’s pre-health program.

Fondren Science Building

Part of Dedman College’s Science Quad, this building is home to both the Physics and Chemistry departments as well as teaching laboratories for the departments of Biological Sciences and Earth Sciences.

Dallas Hall

For more than 100 years, SMU’s elegant first building has served as a symbol of the University. Today, in addition to the Dedman College Interdisciplinary Institute and the administrative offices of the dean of Dedman College, it houses the English Department, the William P. Clements Department of History and the William P. Clements Center for Southwest Studies.

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Frequently asked questions

A Bachelor of Science in biophysical sciences is an interdisciplinary program bridging biology, chemistry and physics to study life at a molecular and physical level. It prepares students for careers in medicine, research and biotechnology by using physical principles to understand biological systems.

There is a wide variety of applications of a biophysical sciences degree. Graduates from the program ��ý have the background needed for career paths in the biotechnology, chemical and medical industries. They are also prepared for medical school or advanced graduate study in biochemistry, biophysics, neurobiology, pharmacology, physics or radiology.

A partial list of career options includes:

Biological technicians
Medical and clinical laboratory technicians
Clinical research coordinators
Medical scientists (but not epidemiologists)
Sales or technical specialists
Physicists
Radiologists
Biochemists and biophysicists
Science policy advisors

The B.S. in biophysical sciences from Dedman College is an excellent pre-med major to give students a good foundation for medical school or research careers. It integrates biology, chemistry and physics, and includes the entire SMU pre-health curriculum and additional courses. As a challenging interdisciplinary program, it demonstrates academic rigor, which is attractive on medical school applications.

Studying biophysical sciences provides a quantitative, mechanistic understanding of life by applying physics and mathematics to biological systems, whereas biology is more of a descriptive analysis. Biophysics develops skills for understanding molecular, cellular and system-level mechanisms, which can lead to advanced biomedical technology and drug discovery. For example, biophysical sciences uses thermodynamics, mechanics and kinetics to create mathematical models that predict biological behaviors. Biophysics is crucial to modern bioengineering, nanotechnology and drug design, and provides a strong foundation for medical and interdisciplinary research careers.

Biophysical sciences generally is considered a rigorous major due to its interdisciplinary nature and combined curriculum of physics, biology, chemistry and advanced mathematics. It is also a time-intensive major, with a heavy workload of classroom instruction, studying, lab work and research. If you enjoy solving complex, quantitative biology problems and using analytical skills, the major offers excellent preparation for medicine and research, and it’s a rewarding field with many career options.

Biophysical sciences majors ��ý gain extensive research experience through faculty-mentored groups within the Department of Biological Sciences and Center for Drug Discovery, Design and Delivery. Students can begin working as research assistants as early as their first year of undergrad in the First Year Research Experience (FYRE) program. Selected students can apply to be fellows of the , which allows for full-time research at UTSW in Dallas.

Yes! Students in the biophysical sciences program ��ý receive extensive hands-on lab and computational experience as part of their required coursework. The program features mandatory laboratory courses and opportunities to work in faculty research labs in such areas as cancer and neuroscience. The curriculum includes computational courses that give hands-on training with computer modeling and simulations.

Biophysics