Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of electricity and magnetism. The course is geared towards STEM majors and required for engineering and physics majors. Co-requisites: PHYS 2415 or 2410. Prerequisite: PHYS 1429

Introduction to quantum physics and relativity, with application to atomic structure, nuclear and elementary particle physics, condensed matter physics, and cosmology. Three lecture hours, one problem hour. Prerequisite: PHYS 1720 or 2410 or 2415, and MATH 2310 or instructor permission.

First semester of introductory physics sequence recommended for engineers. Topics include particle kinematics and dynamics, energy and momentum conservation, rotational motion, fluids, oscillatory motion, waves, sound, and thermodynamics. Emphasis is on development of skills for practical applications. Three lecture hours. Co-requisite: MATH 1320 or equivalent.

Physics 2010 and 2020 constitute a terminal course sequence covering the principles of mechanics, heat, electricity and magnetism, optics, atomic, solid state, nuclear, and particle physics. A working knowledge of arithmetic, elementary algebra, and trigonometry is essential. The PHYS 2010 - 2020 sequence does not normally serve as prerequisite for the courses numbered 3110 and above. PHYS 2010, 2020, in conjunction with the laboratories PHYS 2030, 2040, satisfy the physics requirement of medical and dental schools. PHYS 2010 is prerequisite for 2020. Three lecture hours.

Develop and extend the techniques of introductory physics and calculus to solve more complicated problems. The course covers topics in mechanics, fluids, thermodynamics, electromagnetism, waves, and optics. Recommended prerequisites: PHYS 1420 or 1425; MATH 2310. Recommended co-requisites: PHYS 2410 or 2415; MATH 3250.

The course will examine basic principles of simple theories for metals, the basics of crystallography and crystal structures, the reciprocal space, lattice vibrations, elastic properties of solids, electronic band structure, impurities and defects, dielectric properties, magnetism and superconductivity. Prerequisite: PHYS 2620.

Continuation of PHYS 3650. Intermediate quantum mechanics including perturbation theory; application to systems of current interest. Prerequisite: PHYS 3650.

Advanced topics in computational physics including numerical methods for partial differential equations, Monte Carlo modeling, advanced methods for linear systems, and special topics in computational physics. Prerequisite: PHYS 5630, or instructor permission.

Second semester of introductory physics sequence recommended for engineers and other scientists. Topics include electricity, magnetism, circuits and optics. Emphasis is on development of skills for practical applications. Three lecture hours. Prerequisites: PHYS 1420 or PHYS 1425; co-requisite: MATH 2310; or instructor permission.

This course provides an introduction to the Python programming language with applications to common problems in the science and engineering fields. It emphasizes three core skills: analyzing data, simulating data, and visualizing data. No previous programming or computer experience is required. Prerequisite: MATH 1210 or equivalent, or instructor permission.