Apr 24, 2024  
2023-2024 Undergraduate Catalog 
    
2023-2024 Undergraduate Catalog

Department of Physics and Astronomy


W. Christopher Hughes, Department Head
Phone: (540) 568-6109                                                      
Email: physics@jmu.edu
Location: Physics/Chemistry Building, Suite 2186       
Websitehttps://jmu.edu/Physics

Professors
A. Banu, H. Butner, A. Constantin, K. Feitosa, K. Giovanetti, W. C. Hughes, G. Niculescu, I. Niculescu, S. Scully

Associate Professors
G. Albright, C. Constantin, K. Fukumura, M. Mattson, I. Melnikov, G. Scarel

Assistant Professors
T. Finch, M. Kaveh Baghbadorani, C. Rost, K. Weaver

Instructor
L. Lucatorto

Lecturer
J. Sterlace

Mission

The mission of the Department of Physics and Astronomy is the preparation of scientifically enlightened citizens. Science literacy is promoted by the production of teachers, researchers, technical professionals and knowledgeable individuals through the integration of classroom and experiential learning.

Vision

We strive to be a leading undergraduate physics and astronomy department by building a research-active, student-centered community.

Values

Excellence, integrity and mutual respect are the core values that define our department. The vigorous pursuit of research with undergraduates is central to extending our understanding of nature and the engagement of students directly in the practice of physics and astronomy.

Service to the university, the public and the profession is essential for continued vitality of science education and research.

Goals

To help students:

  • Appreciate the role of science in society and the historical development of physics in the ongoing quest to discover the structure of the universe.
  • Gain an understanding of the basic principles and the experimental basis of the various fields of physics and the logical relationships of the various fields.
  • Develop competence in using computers for computation, data acquisition, numerical control, device development, and information acquisition and processing.
  • Become capable problem solvers using techniques that require mathematical skills, conceptual and mathematical models, order-of-magnitude estimates, and an understanding of limiting cases.
  • Develop competence in designing, constructing, and using laboratory instruments, and to draw valid conclusions from experimental data.
  • Improve written and oral technical communication skills.

Co-Curricular and Organizations

Programs