(Bachelor of Science Degree)
Physics is the science concerned with the nature of matter, energy, and the interrelationships between them. Common cross-disciplines include engineering physics, chemical physics, geophysics, biophysics, and mathematical physics.
Engineering is the application of physics to real-world problems. Engineers are the people who design the automobiles, the bridges, the computer chips, the electronic devices, the artificial limbs, and all of the other technological wonders of our civilization.
Between these two fields, there is a mixed area that might be called applied physics or research engineering. It calls for people with a practical physics background who do engineering-development and research in industry.
Students considering public school teaching as a career should refer to the programs in education, listed alphabetically in this section of the catalog.
The B.S. in physics is designed for students who wish to practice applied physics or research in government or industry, pursue a graduate degree in physics, engineering, or education; or who simply want a more intensive background in physics for careers in technical management, high school physics teaching, and other technical fields.
The 3 - 2 transfer option in engineering provides the basic courses typically found in the first years of engineering programs. Students have the advantages of small classes and close contact with the faculty as they master their foundation courses in science, mathematics, and introductory engineering at Utica University, along with core courses, for a total of at least 96 hours. With this coursework completed, students transfer to an engineering school where they take junior-level engineering courses. Upon the completion of 32 hours at the transfer college (and receipt of an official transcript), students will earn a B.A. in physics from Utica University. When the students have satisfied the requirements from the engineering school, typically after another year of study there, they will earn a second degree, in engineering. In effect, one year of college work counts for the degree at two institutions, and students will have a liberal arts degree in addition to the engineering degree. This degree should be considered by those seeking a career in technical management
Total credit hours required for degree: 120
Learning Objectives
BS students will be able to:
- Demonstrate a conceptual, theoretical and practical understanding (including hands-on work) in Classical Mechanics;
- Demonstrate a conceptual, theoretical and practical understanding (including hands-on work) in Electricity and Magnetism;
- Demonstrate a conceptual, theoretical and practical understanding (including hands-on work) in Quantum and Modern Physics.