Includes quantum phenomena and an introduction to wave mechanics; the hydrogen atom and atomic spectra. Prerequisite: MATH 3250, MATH 4210 or PHYS 3340, PHYS 2620, or instructor permission.

This course will study various phenomena in condensed matter physics, including crystallography, basic group theory, x-ray and neutron diffraction, lattice vibrations, electrons in a metal, electronic band theory, electrons under an external magnetic field, semiconductors, magnetism and superconductivity. Not only the topics but also the theoretical and experimental techniques that are covered in this course are essential for PhD students as well as advanced Undergraduate students in Physics, Chemistry, Chemical Engineering, and Materials Science and Engineering to excel in their research career.Prerequisite: PHYS 3650 (Quantum Mechanics I) or an equivalent course

Includes Maxwell's equations; electromagnetic waves and their interaction with matter; interference, diffraction, polarization; waveguides; and antennas. Prerequisite: PHYS 3420.

Energy is of paramount importance to civilization and has been for centuries, although never more than the present day. Much of the things we value and rely on ¿ food, automobiles, air travel, heating and air conditioning ¿all depend on access to inexpensive sources of energy. Wars have been fought over sources of energy. But what is energy? Is it inexhaustible, or will inexpensive sources of energy disappear in our lifetimes? Will our thirst for energy inevitably lead to climate change and global warming? Physics 1110 intended to address these issues. Structured to be accessible to non-science majors, this course includes such topics as the physical nature of energy, the ways in which we produce and consume energy in our society, and how the opportunities energy provides, and the threats that may occur, will play into our future. Prerequisite: high-school algebra.

Statics and dynamics of particles and rigid bodies treated with extensive use of vector calculus; includes the Lagrangian formulation of mechanics. Prerequisites: MATH 2310 or equivalent, MATH 3250 or equivalent, and PHYS 2720 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.

Approximately five experiments drawn from the major fields of physics. Introduces precision apparatus, experimental techniques, and methods of evaluating experimental results. Outside report preparation is required. Six laboratory hours. Prerequisite: PHYS 2640 or PHYS 3140

For non-science majors. Introduces physics and science in everyday life, considering objects from our daily environment and focusing on their principles of operation, histories, and relationships to one another. 1050 is concerned primarily with mechanical and thermal objects, while 1060 emphasizes objects involving electromagnetism, light, special materials, and nuclear energy. They may be taken in either order.

This course teaches how to use the computer to solve quantitative problems. This involves learning the skills to write computer programs dedicated to certain tasks, to visualize data graphically, to use scientific software, and to learn other practical skills that are important for a future career in the sciences.

The course begins by covering the fundamentals of analog and digital electronics, including the use of transistors, FET's, operational amplifiers, TTL, and CMOS integrated circuits. Following this students conduct projects with modern microcontroller boards (Arduino and Raspberry Pi) using the concepts and the experience gained from the prior fundamentals. Six laboratory hours. Prerequisite: PHYS 2040 or PHYS 2419.