Computational Physics

The goal of the Computational Physics program is to prepare students for success in applying the power of computers to the solution of physics and engineering problems. Majors take a combination of mathematics, computer science, and physics courses designed to increase their knowledge of physical laws and processes, mathematics, and quantitative abilities, as well as the computational physics courses where they apply these skills to the solution of physical problems where analytic techniques are insufficient.

Computational Physics majors learn a wide variety of practical numerical techniques including curve fitting, approximations of derivatives and integrals, root finding, solutions of ordinary and partial differential equations, Fourier series, Monte Carlo methods, and many more. In addition, they gain experience utilizing important numerical software tools that are used in academic and industrial settings, such as Maple, MATLAB, in addition to gaining competency in programming languages such as FORTRAN and C++.

For more information about Computational Physics at Francis Marion please feel free to contact:

Dr. Larry Engelhardt