Biophysics is actually the application of physics to biological issues. Biophysicists make use of the instrumentation, ideas and computational models of physics to know living things. Through the molecules inside cells to the development of medical technologies, biophysics has an enormous effect on our everyday life.
Some of the most important advances in medicine and biotechnology are taking place at the intersection among physics, biology, engineering and computer science. The biophysics major gives the broad science and math skills required to compete within this interdisciplinary environment. More significantly, students are motivated to think independently. This establishes problem-solving abilities useful throughout life.
Biophysics majors stick to many different specialist paths after leaving Hopkins. Quite a few majors enter highly ranked graduate applications in cell biology, biophysics, physiology, public health and neuroscience. Such programs prepare people for careers in fundamental biomedical research, biotechnology and pharmaceutical R&D, governmental regulatory agencies, private business consulting, science journalism, science education and many other fields.
Single molecule biophysics lies on the confluence of nanotechnology and molecular medicine. The Center utilizes nanotechnology to research the physical processes on which existence is based utilizing the simplest model systems those that are present on the level of a single molecule or a number of molecules. By doing this, we can easily gain a better knowing of molecular signaling, gene regulation and molecular transport in cells that will result in improved biosensors as well as other new technologies.
The Center with regard to Single Molecule Biophysics attempts to better understand the physical foundation of life by learning the individual molecules which comprise living cells. Researchers at the Center are employing scanning probe techniques to measure and manipulate person molecules.
The Center is also dedicated to advancing the newest techniques with regard to research on the single molecule scale and to translating discoveries into fresh tools and new applications which are relevant to combating disease and promoting health.