Why Study Physics
Physics students learn how the laws of nature can be used to explain the many phenomena of our world. Most students are excited to find that elementary principles, many of which are learned in introductory physics courses, may be used to solve seemingly complex problems. This ability to apply the simple principles that underlie complex problems will serve students well in the interests and careers they pursue after graduation.
Many students who earn a bachelor's degree in physics continue their studies towards a graduate degree in physics or a related field of natural science or engineering. Students who have demonstrated their abilities with a good record in an undergraduate physics program are favorably considered for admission to professional schools. Current information about the job market for physics degree holders, see the American Institute of Physics job information site. For more information about careers in Physics, see the American Physical Society's Careers in Physics web page.
The University of Oregon provides a Career Mentoring Program that connects UO students seeking career information with alumni and community professionals working in the field(s) of the student's interest.
|The problem-solving and analytical skills learned as a physics student will serve you well in any career you choose.|
|My experiences in the high-energy physics laboratory were the highlight of my academic experiences at the University of Oregon. I had contact with professors and exposure to a research environment, which solidified my intentions to go to graduate school and explore my own research interests. The valuable experience I got using state-of-the-art laboratory equipment has proved useful to me in graduate school.
The greatest benefit of my laboratory work was that it allowed me to learn about a wider range of subjects than my courses covered. When I first approached David Strom, an assistant professor in the Department of Physics, about doing an undergraduate thesis, I was considering going into electrical engineering in graduate school, but I was concerned about my minimal background in electronics.
|Dan Marks graduated Phi Beta Kappa from the university's Clark Honors College with a major in physics.
He helped me choose a thesis topic that not only taught me more about physics, but gave me the opportunity to learn more about electronics. Part of my thesis required me to construct a device to conduct measurements on low-noise amplifiers.
While I have since chosen to pursue optics in graduate school, the lessons I learned working on my thesis have proved invaluable in preparing me for the work I do now.
The department's faculty is committed to giving majors a solid foundation in the basics of physics and to teaching students the analytical and problem-solving skills that are essential to any career.
Physics classes typically comprise fifteen to twenty-five students, an optimal size that guarantees individual attention. These courses are taught by faculty members who bring their research interests into the classroom.
The thirty-four faculty members in physics have diverse research interests that range from astrophysics to materials science. The faculty is awarded more than $4 million in external research grants each year. Whenever possible, undergraduates are offered the chance to participate in vigorous faculty research programs.
Willamette Hall, a spacious new facility, was designed specifically for the physics department. Its introductory physics laboratories are equipped with microcomputers to aid students in data acquisition and analysis. Significant funding from grants has provided up-to-date equipment for advanced laboratories in laser optics, electronics, and instrumentation.
Physics Reading Room
The department's reading room offers a comfortable place for undergraduates to study and share ideas.