Why study Physics BA - Teaching of Science Physics and Chemistry Concentration at UB?
Physics is the fundamental science underlying the investigation of all natural phenomena. Its elegant experiments and fundamental theories have provided much of the advancements in present-day science and technology. From the smallest sub-atomic particles to the vastness of cosmic expansion, and at the intermediate scales of our lives, in such areas as solid-state electronics, superconductivity, biological function, and geologic events - physics profoundly impacts our understanding of nature and our ability to harness its secrets for the progress of human kind.
The B.A. in Physics with Teaching of Science Concentrations provides the background in physics and mathematics needed for teaching physics at the high school level. It is not meant for students who wish to do graduate work in physics, but it is appropriate for graduate study in education.
Upon successful completion of all requirements, the student will have knowledge of:
•The basic laws of physics, their corollaries, and comprehension of how they can be applied to explain specific natural phenomena
•Critical thinking and problem solving skills in physics, related to hypothesis building, application of the scientific method, and mathematical methods to analyze physics theories and experiments, and devise solution strategies.
•Laboratory skills and exposure to a variety of experiments illustrating important phenomena, measuring techniques, and qualitative analysis of data and uncertainty at appropriate levels
•Contemporary areas of physics inquiry
•Written and oral communication skills for presentation of scientific results
The Learning Environment
Introductory courses consist of large lectures given by a faculty member and smaller recitation sections that are taught by graduate teaching assistants. The lectures introduce the material and the recitations focus on applications and problem-solving. The lectures use many demonstrations to show physics principles in live action. Almost all the introductory lectures use personal response systems, where students use clickers to respond to the instructors’ questions. The homework assignments for the introductory courses are typically submitted online. We also offer purely online introductory courses during winter session.
The introductory lab courses explore basic topics such as forces, kinematics, friction, electrostatics and electric circuits. These experiments are designed to illustrate and expand upon topics taught in the introductory lecture courses.
Our upper division courses are smaller, with around 25-35 students. We offer two upper division lab courses. In the Modern Physics Laboratory (PHY 307), students work on experiments that established modern physics in the early 20th century. In the Advanced Physics Laboratory (PHY 407 and PHY 408), students choose to work on three experiments that were developed by our faculty and use research-grade equipment.
Many of our majors, and even non-majors, complete independent study projects (PHY 498 and PHY 499) with our faculty. Our majors are encouraged to write a senior thesis (PHY 497), which allows them to graduate with honors.
About Our Faculty
Faculty List Directory
Please visit the Physics department website for additional information about our faculty.
Work settings include:
People with degrees in physics typically pursue careers in teaching or research, or some combination of the two. Teaching can be at the high school, community college, college, or university level. University teachers generally also engage in research. People who pursue a non-teaching research career generally work in industries such as the computer chip industry, or work in government labs such as Argonne or Brookhaven.
Approximately 75% of our students go on to graduate school, mostly in physics, but a significant number go into other areas such as law, business, medicine, biophysics, and medical physics. Our students regularly get into outstanding graduate schools such as Princeton, Cornell, University of Chicago, MIT, and UB.
Students interested in a physics degree program should contact the Physics Director of Undergraduate Studies, Dr. John Cerne. Dr. Cerne will help you choose a program and advise you on course selection. He can also accept you into the program once you have completed your prerequisite courses and help with most HUB changes that you request.
Students pursuing this concentration must also pursue the Undergraduate Minor in Education, which is administered by the Department of Learning and Instruction (LAI). Applications to the minor must be filed with the LAI office in 505 Baldy Hall.
For questions related to education courses, refer to the LAI office.
Academic Advising Contact Information
Physics Undergraduate Director
Professor John Cerne
128 Fronczak Hall
Scholarships and Financial Support
Each year the department awards up to seven scholarships to undergraduate physics majors. This award is based on merit, as well as financial need.
The Department of Physics encourages and supports student applications for prestigious national scholarships and fellowships, such as offered by the Goldwater, Fulbright and National Science Foundation programs. View additional information on National scholarships.