Physics is the study of the physical universe. In physics, students learn to solve theoretical and practical problems using fundamental principles and to effectively communicate those solutions. This study provides preparation for graduate studies in engineering and other physical sciences and professional schools, as well as preparation for positions in industry.
The various disciplines represented within the Department of Mathematics, Physics and Computer Science are united by their reliance upon:
- methods for discovering and demonstrating patterns, and for constructing structures that exhibit, unify and illuminate these patterns;
- application of these structures to model a wide variety of phenomena in mathematics and the sciences;
- precise language as a means to express patterns and describe structures.
Accordingly, graduates of the Math/Physics/Computer Science department will:
- demonstrate knowledge of basic content appropriate to the chosen major;
- communicate precisely and effectively on quantitative matters;
- perform basic modeling and interpret the results in terms of the phenomena being modeled;
- read quantitative material, interpret correctly what has been read, and apply it correctly.
(B.S. degree) Fifty-one hours required. Thirty-two semester hours of physics including PHY 211, 212, 241, 319, and 343. The remaining fifteen hours of physics courses must be numbered 300 and above. The allied courses required are MAT 125, 225, and 325, and no less than ten hours to be chosen from the following courses: MAT 310 and 345; CHE 111, 112, and 113; CSC 115 and 312.
Twenty semester hours required in Physics including PHY 211, 212, 241; and nine hours of 300 or 400 level course work in Physics.
A prerequisite must be taken before the course; a co-requisite may be taken before or concurrently with a course.
103. Astronomy. (3 hours) Covers the earth, moon, planets, sun, stars, galaxy, universe; occasional use of the planetarium. No laboratory. Fall
105. Integrated Science in Context: Sustainable Energy. (4 hours) An introduction to the physical sciences through an examination of sustainable energy. The course is primarily for non-science majors and pre-service elementary and middle school teachers. Mathematics requirements will be kept to a minimum. Laboratory. Spring
109. Elementary Meteorology. (3 hours) Atmospheric structure, measurements, energy, and motions; climate; weather forecasting; applications. Mathematics requirements will be kept at a minimum. No laboratory. Spring
208. Science Careers Seminar. (2 hours) An interdisciplinary seminar in STEM (science, technology, engineering and mathematics) disciplines that will introduce students interested in scientific research to an array of professions and professionals in these fields. This introduction will emphasize comprehension and analysis of published scientific research and provide students with the opportunity to meet the science professional who produced the work. Prerequisites: One science or mathematics course for majors, sophomore or junior standing, and approval of the instructor. Fall
211-212. College Physics I and II. (4 hours each) Introductory course for college students. First term: mechanics, heat, thermodynamics, sound, and waves. Second term: electricity, magnetism, optics, modern physics. Laboratory. Prerequisite: MAT 107 or equivalent background. Fall and Spring
241. Engineering Physics. (3 hours) Supplements Physics 211-212. Selected topics in mechanics, thermodynamics, electricity, magnetism, optics, and modern physics with the application of calculus in physics. Prerequisites: PHY 211, MAT 125 and 225. Co-requisite: PHY 212. Fall
260. Engineering Preceptorship. (1 hour) On site supervised experience in the engineering sciences, observing and working with practicing engineers in the field. Pass/fail grading. As needed
301. Electronics. (3 hours) A.C. circuits; D.C. circuits; basic devices; basic instruments. Laboratory. Prerequisites: PHY 211, 212 or approval of instructor. Odd Springs
313. Thermal Physics. (3 hours) Basic principles of thermal and statistical physics; laws of thermodynamics; equilibrium and irreversibility; cyclic processes; ensembles; thermodynamic potentials; canonical distribution; equipartition theorem; Maxwell distribution; phase changes; applications. Prerequisites: PHY 212 and 241. Co-requisite: MAT 325. Fall
317. Statics. (3 hours) Application of the conditions of equilibrium to two and three dimensional systems; trusses, frames and beams; friction; shear and bending moment diagrams; centroids, centers of gravity, area and mass moments of inertia, vectors. Prerequisites: PHY 211 and MAT 225. Fall
319. Dynamics. (3 hours) Kinematics and kinetics of particles and rigid bodies; work-energy method; impulse and momentum; harmonic motion; two body problem. Prerequisite: PHY 241 or 317. Spring
343. Relativity and Modern Physics. (3 hours) Special relativity, introduction to general relativity, introduction to quantum physics, hydrogen atom and complex atoms, atomic spectra, topics in nuclear and solid-state physics. Prerequisites: PHY 211 and 212; PHY 241. Fall
401. Advanced Experimental Physics. (3 hours) Selected experiments in mechanics, heat, physical optics, electricity and magnetism, solid state, atomic and nuclear physics, and lasers. Prerequisites: PHY 211 and 212. Even Springs
405. Electricity and Magnetism. (3 hours) Theory of the behavior of electric and magnetic fields and their sources including Maxwell’s equations. Prerequisite: PHY241. Co-requisites: MAT325 and MAT345. Fall
440. Independent Study. (1, 2, or 3 hours) As needed
450. Seminar. (1 hour) May be taken as many as three times. One formal presentation of current interest must be completed. Visiting scientists will constitute a portion of this course. As needed
471. Topics in Classical Physics. (1, 2, or 3 hours) As needed
473. Topics in Modern Physics. (1, 2, or 3 hours) As needed