300
This course is an introduction to the physics of the twentieth century. Topics include a study of the special theory of relativity, an introduction to the general theory of relativity, a survey of the experimental basis of quantum physics, and Schrödinger's quantum mechanics, as well as topics selected from atomic and molecular physics, solid-state physics, nuclear and elementary particle physics and cosmology. Lecture only.
Credit Hours: 4
(NS)
Prerequisites
MAT 260,
PHY 201 or
PHY 206 (with a grade "C" or better).
This course is an intermediate-level course in classical mechanics. Topics include: Newtonian mechanics, oscillatory motion, central-force motion, variational calculus, Lagrangian and Hamiltonian dynamics, dynamics of systems of particles and rigid bodies, and non-linear systems. Lecture only.
Credit Hours: 4
(NS)
Prerequisites
PHY 307 (with a grade "C" or better).
This course is an introduction to the theory and application of electromagnetism. Topics include: electric fields produced by charge distributions, electrostatic potential, electrostatic energy, magnetic forces and fields produced by currents and by magnetic dipoles, introduction to Maxwell's equations, electromagnetism in matter and electromagnetic waves. Lecture only.
Credit Hours: 4
(NS)
Prerequisites
PHY 307 (with a grade "C" or better).
This course is an advanced physics laboratory in which the design and execution of experiments, as well as the analysis and presentation of data and results are emphasized. Students will develop a working knowledge of the conventions of writing scientific papers. Experiments can include topics in astrophysics, atomic and nuclear physics, electronics, optics and mechanics.
Credit Hours: 4
(NS) (W)
Prerequisites
PHY 307 (with a grade "C" or better).
This course is an intermediate-level introduction to quantum theory and statistical mechanics. Topics covered include the Schrödinger equation, the Heisenberg uncertainty principle, solution of the hydrogen atom, and quantum mechanics in three dimensions. Lecture only.
Credit Hours: 4
(NS)
Prerequisites
PHY 307 (with a grade "C" or better).
The goal of this course is to introduce students to computational methods used in modeling physical systems in physics, astronomy, and related fields. Students will primarily use the Python programming language to solve physical problems numerically. Lecture only.
Credit Hours: 4
(NS)
Prerequisites
PHY 307 (with a grade "C" or better).