About Physics (bs) in Indiana State University
The University offers a bachelor of science (BS) in physics that prepares students for careers in science, computing, engineering, teaching, and research.
Students who have a passion for understanding how things work and enjoy scientific experiments and mathematics should consider studying physics. Physics seeks to better human knowledge of matter and energy in the universe, from atomic nuclei to galaxy clusters, and to apply this knowledge in the development of new technologies.
Coursework in the major includes a core curriculum that provides a strong foundation in physical science and problem-solving skills. After completing the core, students may choose one of three fields of concentration:
- Chemical Physics: This concentration focuses on areas where the techniques of chemistry and physics are brought together for the study of atoms and molecules; their interactions in gases, liquids, and solids; and the detailed structure and dynamics of material changes. Chemical physicists are employed by a wide range of businesses, particularly the pharmaceutical, photographic and microelectronic industries.
- Engineering Physics: This concentration focuses on applying the principles of physics to develop new technologies and solve interdisciplinary engineering problems. Graduates may pursue an advanced degree in applied physics or engineering, or function as productive engineering professionals.
- Professional Physics: This concentration is built around the physics core curriculum to supply the background and experience needed to enter graduate school or become a research physicist.
A central feature of the program is the opportunity to work closely with faculty to build a strong foundation in scientific principles and techniques. Each student's experience includes opportunities for research in modern laboratories in a supportive, encouraging, and challenging environment with accessible faculty members and personal mentoring.
The program offers an innovative sophomore sequence in modern physics. Students are introduced to topics such as special relativity, quantum mechanics, lasers, superconductors, nuclear physics, and atomic physics during their second year. The laboratory component provides hands-on experience with the instruments and software used in industrial and academic research facilities.
Results of student research projects are published in journals and featured at scientific conferences. This practical research experience is essential preparation for professional or advanced academic work. Students may receive course credits or be employed as research assistants. Summer fellowships are also available.
A number of activities and organizations are available that enable students to interact with other students and professionals in the industry, including the University's chapter of the Society of Physics Students—and Sigma Pi Sigma, the physics honor society.
Academic qualification equivalents
- Applicants must have passed high school
English language requirements
- IELTS : 6.0
- TOEFL IBT: 61
- PTE : 95
