Biophysics degree overview

• Physiological Pharmacology – the physiology of human disease (heart failure, cancer, neurological disorders such as Parkinson’s disease); the pharmacology of the drugs used to treat disease
• Polymer Science for Biomaterials with Laboratory – the principles of polymer science and its application in medicine
• Tissue Engineering – replacing or regenerating compromised tissue function, tissue design and development, functional reconstruction of injured tissues
• Biochemistry – the mechanisms involved in the principles of macromolecular structure and function, the pathways for metabolism, the transfer of information from genes to proteins
• Genetics with Laboratory – transmission of genes and chromosomes, mutation, expression of genetic material, genetic engineering, and evolutionary genetics
• Experiments in Modern Physics – introduction to experimental physics; students perform basic experiments in modern quantum physics; lab techniques, statistics, and data analytics
• Quantum Mechanics – an integrated study of photons, electrons, atoms, molecules, matter, nuclei, and particles
• Linear Algebra – vector spaces, linear transformations, matrices, systems of linear equations, bases, projections, rotations, determinants, and inner products
• Methods of Applied Mathematics – mathematical techniques involving ordinary differential equations used in the analysis of physical, biological, and economic phenomena
• Chemical Biology – the use of chemical tools to probe biological systems, molecular recognition of DNA, artificial enzymes, small molecule sensors, and imaging of proteins nucleic acids, and cell-surface carbohydrates

Master’s Degree in Biophysics – Two Year Duration
The biophysics master’s program provides a foundation for those wishing to pursue a career in research, teaching, or applied biomedical fields. The typical curriculum combines core courses, laboratory techniques, and thesis or culminating project research. This is the most common credential held by biophysicists.

Here is a sample set of courses offered at this level:

• Cellular and Molecular Biophysics
• Quantitative Biology and Systems Biophysics
• Biophysical Techniques
• Cell Biology
• Structure and Function in Genes and Proteins
• Regulation of Metabolism
• Biomaterials
• Medical Biophysics
• Neural Engineering
• Quantitative Analysis in Biomedical Imaging
• Bioinformatics and Computational Biology
• Cardiovascular Biomechanics
• Physics of Medical Imaging
• Image Form and Processing
• Introduction to Statistical Inference
• Advanced Statistical Computing

Doctoral Degree in Biophysics – Five Year Duration
The doctoral program in biophysics is like a very long dissertation project. Ph.D. students have a great deal of independence. They have the benefit of supervision from a faculty advisor and may complete some taught classes, but their focus is on their independent research, on contributing original – new – knowledge to the field of biophysics. The Doctoral Degree in Biophysics is targeted at students who aspire to careers as university professors, researchers, or biomedical industry executives.

The courses taken by individual Ph.D. candidates will vary, depending on the focus of their dissertation. Here are some examples of possible core courses and research areas:

Core Courses

• Statistical Mechanics
• Chemical Thermodynamics
• Biophysical Chemistry
• Membrane Biophysics
• Cell Biology

Research Areas

• Cell and molecular biophysics – cancer biology, biological reasons for cancer
• Medical physics – the physics of medical imaging systems, how electromagnetic waves and particles work, practical applications
• Structural biology – determining the structure of molecules by various methods such as nuclear magnetic resonance (NMR) spectroscopy, x-ray crystallography, and electron microscopy
• Membranes and channels
• Theory of molecular machines and motors (natural or synthetic molecules that convert chemical energy into mechanical forces and motion)
• Cell mechanics – the mechanical forces generated by cells
• Motility and cytoskeleton – the cytoskeleton is a systems of fibers critical to cell motility, the spontaneous movement of a cell from one location to another by consumption of energy
• Single molecule biophysics – the study of the dynamics and interactions of individual biomolecules to understand how they carry out their functions in living cells

Neuroscience
Neuroscientists study the structure and function of the human brain and nervous system and how they affect behavior. The field of neuroscience borrows principles from biology, biochemistry, physiology, psychology, immunology, physics, mathematics, and computer science. Degree programs in neuroscience, therefore, reflect this multidisciplinary nature.

At the graduate level, programs include the study of neurological disorders, the impact that injury has on the brain, and approaches to neurological therapy and rehabilitation.

Physics
Physics is a field that keeps changing as discoveries are made. This means that the field asks at least as many questions as it answers. Students of physics degree programs study matter and energy. They learn about the relationships between the measurable quantities in the universe, which include velocity, electric field, and kinetic energy. In simple terms, the study of physics is an attempt to figure out why objects move in the way that they do.