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College of Arts & Sciences

Physics Undergraduate Courses

Course List


Credit 1. 1 Lecture Hour. Critical thinking skills and problem solving in physics: time management and teaming
Prerequisite: Physics majors; non-majors requires approval of instructor.
Credit 1. 1 Lecture Hour. Critical thinking skills and problem solving in physics: time management and teamingFor physicsRegistration by non-majors requires approval of
Credits 3. 3 Lecture Hours Science for citizens; interdisciplinary survey of contemporary issues in the science of our universe or cosmos, Earth and humanity, including the big bang, evolution, genetics, vaccines and drugs; future outlook on humanity, including artificial intelligence, cryptography and cybersecurity; critically analyze science presented in the news, on television and on social media; ethical implications ofCross Listing: ARSC 104 and BIOL 104
Credits 3. 3 Lecture Hours Designed to give an intuitive understanding of the Big Bang and Black Holes, without mathematics, and de-mystify them for the non-Cross Listing: ASTR 109/PHYS 109
Credit 1. 2 Lab Hours Hands-on understanding of the concepts surrounding the Big Bang and Black Holes; emphasis on the evidence-based decision making process, methods and presentation; for non-Companion course for ASTR 109/PHYS 109/PHYS 109/ASTR 109
Prerequisite: ASTR/PHYS 109/ASTR 109 or registration therein. Cross Listing: ASTR 119/PHYS 119.
Credits 3. 3 Lecture Hours Physics needed to be an effective policy maker or world leader but appropriate for any citizen, since all citizens need to understand the world in which they live and work; fundamental principles of physics made comprehensible and usable by those not in science- or math-related
Prerequisite: Basic math skills; also taught at Galveston campus.
Credits 3. 2 Lecture Hours. 2 Lab Hours Modern physics in action with hands-on physics experience in simple experiments for non-physics majors; introduction to thermodynamics and soft matter physics; heat, temperature, thermodynamic efficiency, phase transitions, mechanical properties of soft matter, heat transfer mechanisms; physical
Credits 3. 3 Lecture Hours The basic level of concepts of quantum mechanics such as wave-particle duality, complementarity, quantum interference and entanglement, and their applications to fields such as quantum communication and quantum
Prerequisites: High school physics and calculus.
Credits 3. 3 Lecture Hours Physics-oriented introductory programming; basics of programming and applications of programming for physics; programming in the context of physics, such as variables, expressions, flow control, functions and data visualization, applied to physics topics such as energy minimization, Newtonian dynamics and
Credits 4. 3 Lecture Hours. 3 Lab Hours (PHYS 1301 and 1101, 1401) CollegeFundamentals of classical mechanics, heat, andPrimarily for architecture, education, premedical, predental, and preveterinary medical students; also taught at Galveston
Credits 4. 3 Lecture Hours. 3 Lab Hours (PHYS 1302 and 1102, 1402) CollegeContinuation of PHYS 201Fundamentals of classical electricity and light; introduction to contemporary
Prerequisite: PHYS 201; also taught at Galveston campus.
Credits 4. 3 Lecture Hours. 3 Lab Hours General survey physics course for K-8 preservice teachers integrating physics content and laboratory activities relevant to physics-related subject matter included in the current Texas and national standards for elementary school science; includes aspects of mechanics, waves, electricity, magnetism and modern
Prerequisite: Major in interdisciplinary studies or interdisciplinary technology or approval of instructor.
Credits 3. 3 Lecture Hours (PHYS 2325, PHYS 2425*) Newtonian Mechanics for Engineering andCalculus-based introductory Newtonian mechanics; laws of physical motion for solution of science and engineering
Prerequisites: Grade of C or better in MATH 151 or MATH 171, or equivalent; also taught at Galveston and Qatar campuses.
Credits 3. 3 Lecture Hours (PHYS 2326, PHYS 2426*) Electricity and Magnetism for Engineering andCalculus-based electricity and magnetism; electromagnetic phenomena; basic laws of electricity and magnetism; science and engineering problems involving charges, electromagnetic fields, and electrical
Prerequisites: Grade of C or better in PHYS 206; grade of C or better in MATH 152 or MATH 172 or equivalent; also taught at Galveston and Qatar campuses.
Credits 2. 1 Lecture Hour. 3 Lab Hours Description and application of laws of physical motion to the solution of science and engineering problems; using sensing, control and actuation for experimental verification of physics concepts while solving engineering
Prerequisites: Grade of C or better in MATH 151 or MATH 171 or equivalent; grade of C or better in ENGR 102; grade of C or better and concurrent enrollment in PHYS 206; also taught at Galveston campus. Cross Listing: ENGR 216/PHYS 216.
Credits 2. 1 Lecture Hour. 3 Lab Hours Electromagnetism and electromechanical systems; use of sensing, control and actuation to demonstrate key physical relationships through the transducer relationships linking pressure, temperature and other physical stimuli to changes in electric and magnetic
Prerequisites: Grade of C or better in MATH 152 or MATH 172, or equivalent; grade of C or better in PHYS 206 or equivalent; grade of C or better in PHYS 216/ENGR 216 or ENGR 216/PHYS 216; grade of C or better and concurrent enrollment in PHYS 207; also taught at Galveston campus. Cross Listing: ENGR 217/PHYS 217.
Credits 3. 3 Lecture Hours Wave motion and sound, geometrical and physical optics, kinetic theory of gases, laws of
Prerequisites: PHYS 207 or PHYS 208, or concurrent enrollment; MATH 221, MATH 251, or MATH 253, or concurrent enrollment; MATH 308 or concurrent enrollment; also taught at Qatar campus.
Credits 3. 3 Lecture Hours Atomic, quantum, relativity and solid state
Prerequisites: PHYS 207 or PHYS 208; MATH 308 or concurrent enrollment; also taught at Qatar campus.
Credits 3. 1 Lecture Hour. 4 Lab Hours Linear circuit theory and applications of solid-state diodes, bipolar and field-effect transistors, operational amplifiers and digital
Prerequisites: PHYS 207 and PHYS 227, or PHYS 208; MATH 308.
Credit 1. 2 Lab Hours (PHYS 2125, PHYS 2425*) Physics of Motion Laboratory for theThe first semester laboratory to accompany a two-semester course sequence in introductory physics; topics include material covered in a typical calculus-based introductory physics course on the principles of mechanics and
Prerequisites: MATH 151 or MATH 171; concurrent enrollment in PHYS 206; also taught at Galveston campus.
Credit 1. 2 Lab Hours (PHYS 2126, PHYS 2426*) Electricity and Magnetism Laboratory for theThe second semester laboratory to accompany a two-semester course sequence in introductory physics; topics include material covered in a typical calculus-based introductory physics course on the principles of electricity and
Prerequisites: MATH 152 or MATH 172; PHYS 206 or PHYS 218; concurrent enrollment in PHYS 207; also taught at Galveston campus.
Credits 1 to 4. 1 to 4 Other Hours Special work in laboratory or theory to meet individual requirements in cases not covered by regular curriculum; intended for use as lower-level
Prerequisite: Approval of instructor.
Credits 1 to 4. 1 to 4 Lecture Hours. 0 to 6 Lab Hours Selected topics in an identified area ofMay be repeated for
Prerequisite: Approval of instructor.
Credits 0 to 4. 0 to 4 Other Hours Research conducted under the direction of faculty member inMay be repeated 2 times for
Prerequisites: Freshman or sophomore classification and approval of instructor.
Credits 3. 3 Lecture Hours Classical mechanics of particles and rigid bodies; review of Newtonian mechanics and foundations of Lagrangian and Hamiltonian
Prerequisite: PHYS 309 and PHYS 331; PHYS 332 or concurrent enrollment, or approval of instructor.
Credits 3. 3 Lecture Hours Applications of Lagrangian and Hamiltonian methods to selected problems of classical
Prerequisite: PHYS 302.
Credits 3. 3 Lecture Hours Electrostatics; dielectrics; electrical current and circuits; magnetic fields and materials; induction; Maxwell's
Prerequisites: PHYS 331; PHYS 332 or concurrent enrollment, or approval of instructor.
Credits 3. 3 Lecture Hours Radiation andElectromagnetic waves; radiation; reflection and refraction; interference; diffraction; special relativity applied to
Prerequisite: PHYS 304.
Credits 3. 3 Lecture Hours Special relativity; concepts of waves and particles; introductory quantum
Prerequisite: PHYS 221; MATH 308; also taught at Qatar campus.
Credits 2. 1 Lecture Hour. 2 Lab Hours Laboratory experiments in modern physics and physical optics with an introduction to current, state-of-the-art recording
Prerequisites: PHYS 225; PHYS 309.
Credit 1. 1 Lecture Hour. 1 Lab Hour. Laboratory experiments in modern physics and physical optics with an introduction to current, state-of-the-art recording
Prerequisites: PHYS 327 or concurrent enrollment.
Credits 3. 3 Lecture Hours Applications involving vectors; vector and additional methods for advanced electricity and magnetism; relationship and solutions of classical wave equation, heat equation, and Schrodinger equation; harmonic motion on finite or periodic lattice and in continuum; tensor and matrix notation in classical mechanics and electricity and
Prerequisite: PHYS 221 and MATH 308; or approval of instructor.
Credits 3. 3 Lecture Hours Methods to solve the important equations of theoretical physics, emphasizing the effects of boundary conditions and quantization on their solutions and restricted to the essential physical symmetries associated with free space, spheres, cylinders, and rectangles; if time permits, introduction to symmetries in physics and to asymptotic
Prerequisites: PHYS 331; physics majors.
Credits 3. 3 Lecture Hours Introduction to computational and simulational techniques widely used in physics applications and research, including trajectory integration, wave motion analysis, molecular dynamics, Monte Carlo methods, statistical mechanics of spin systems, phase transitions, quantum evolution, bound state problems, and variational
Prerequisites: PHYS 332; knowledge of a high level language.
Credits 4. 4 Lecture Hours Statistical method, macroscopic thermodynamics, kinetic theory, black body radiation, Maxwell-Boltzmann, Bose-Einstein, and Fermi-Dirac
Prerequisite: PHYS 412.
Credits 3. 3 Lecture Hours Postulates of wave mechanics; wave packets; harmonic oscillator; central field problem; hydrogen atom; approximation
Prerequisites: PHYS 302; PHYS 309; PHYS 332; junior or senior classification.
Credits 3. 3 Lecture Hours Continuation of PHYS 412Electron spin; addition of angular momenta; atomic structure; time dependent perturbations; collision theory; application of quantum mechanics to atomic, solid state, nuclear or high energy
Prerequisite: PHYS 412.
Credits 3. 3 Lecture Hours Matter at the smallest scales and fundamental interactions between them; physics of atomic nuclei; physics of hadrons, quarks, leptons; fundamental strong and weak interactions; gauge bosons; state-of-the-art nuclear and particle physics; how knowledge was obtained; experimental confirmation of theoretical ideas; modern tools and instruments; foundations of nuclear technology; future
Prerequisites: Grade of C or better in PHYS 309.
Credits 3. 3 Lecture Hours A survey of solid state physics; an introduction to crystal structures and the physics of electrons, lattice vibrations and photons; applications to semiconductors; magnetism; superconductivity; physics of nanostructures; brief introduction to selected current topics in condensed matter
Prerequisites: PHYS 304 and PHYS 412.
Credits 3. 3 Lecture Hours A broad spectrum of elementary particle physics along with historical and recent publication, covering symmetry in quarks and leptons, fundamental interactions, relativistic kinematics, Feynman diagrams, Dirac equation, cross-sections for particle reactions, unification of fundamental forces, accelerators and detectors and other current
Prerequisite: Grade of C or better in PHYS 309 or equivalent.
Credits 3. 3 Lecture Hours Basic concepts of light-matter interaction, optics of semiconductors, nanostructures with quantum confinement and their interaction with light; physical principles of selected state-of-the-art optoelectronic devices; emerging concepts and technologies; examples of modern, state-of-the-art devices and emerging
Prerequisites: Grade of C or better in PHYS 309 or PHYS 222; grade of C or better in PHYS 414.
Credits 2. 6 Lab Hours Experiments in nuclear, atomic, and molecular physics using modern instrumentation and equipment of current
Prerequisite: PHYS 327 or equivalent.
Credits 2. 6 Lab Hours Experiments in solid state and nuclearModern instrumentation and current research equipment are
Prerequisite: PHYS 327 or equivalent.
Credits 1 to 12. 1 to 12 Other Hours Special work in laboratory or theory to meet individual requirements in cases not covered by regular
Prerequisite: Approval of instructor; also taught at Galveston campus.
Credits 1 to 4. 1 to 4 Other Hours Selected topics in an identified field ofMay be repeated for
Prerequisite: Approval of instructor; also taught at Qatar campus.
Credits 0 to 4. 0 to 4 Other Hours Research conducted under the direction of faculty member inMay be repeated forRegistration in multiple sections of this course is possible within a given semester provided that the per semester credit hour limit is not
Prerequisites: Junior or senior classification and approval of instructor; also taught at Qatar campus.

Astronomy Undergraduate Courses

Course List


Credits 3. 3 Lecture Hours (ASTR 1303 or PHYS 1303) BasicA qualitative approach to basic stellar astronomy; earth-moon-sun relationships then studies of distances to stars, stellar temperatures, and other physical properties; birth, life on the main sequence of the H-R diagram, and ultimate fates of stars; not open to students who have taken ASTR 111 or ASTR 314
Credit 1. 3 Lab Hours (ASTR 1103 or PHYS 1103) ObservationalObservational and laboratory course; use of techniques and instruments of classical and modern
Credits 3. 3 Lecture Hours A qualitative study of stellar birth, stellar structure and evolution, stellar nucleosynthesis, the Hertzsprung-Russell Diagram, white dwarfs, neutron stars, supernovae, black holes, proto-planetary systems, origin of the solar system and the search for exoplanets; utilizes active learning methods that incorporate observations from the current generation of ground and space-basedOpen to all
Credits 3. 3 Lecture Hours A qualitative study of properties of galaxies, galaxy evolution through cosmic time, galactic archaeology, active galactic nuclei, super-massive black holes, large-scale structure, the expansion history of the universe, cosmological parameters and Big Bang nucleosynthesis; utilizes active learning methods that incorporate observations from the current generation of ground and space-basedOpen to all
Credits 3. 3 Lecture Hours Designed to give an intuitive understanding of the Big Bang and Black Holes, without mathematics, and de-mystify them for the non-Cross Listing: PHYS 109/ASTR 109
Credits 4. 3 Lecture Hours. 2 Lab Hours (ASTR 1303 and ASTR 1103, ASTR 1403, PHYS 1303 and PHYS 1103, PHYS 1403) Overview of ModernRoots of modern astronomy; the scientific method; fundamental physical laws; the formation of planets, stars, and galaxies; introduction to cosmology; includes an integrated laboratory that reinforces the lecture topics, including hands-on experience with telescopes and imaging of celestial objects; not open to students who have taken ASTR 101 or ASTR 314
Credit 1. 2 Lab Hours Hands-on understanding of the concepts surrounding the Big Bang and Black Holes; emphasis on the evidence-based decision making process, methods and presentation; for non-Companion course for ASTR 109/PHYS 109/PHYS 109/ASTR 109
Prerequisite: ASTR/PHYS 109/ASTR 109 or registration therein. Cross Listing: PHYS 119/ASTR 119.
Credits 1 to 4. 1 to 4 Other Hours Special work in laboratory or theory to meet individual requirements in cases not covered by regular curriculum; intended for use as lower-level
Prerequisite: Approval of department head.
Credits 1 to 4. 1 to 4 Lecture Hours. 0 to 4 Lab Hours Selected topics in an identified area ofMay be repeated for
Prerequisite: Approval of instructor.
Credits 0 to 4. 0 to 4 Other Hours Research conducted under the direction of faculty member inMay be repeated 2 times for
Prerequisites: Freshman or sophomore classification and approval of instructor.
Credits 3. 3 Lecture Hours Primarily for majors in science andKepler's laws, law of gravitation, solar system, stars, stellar evolution, nucleosynthesis, cosmology, clusters, nebulae, pulsars, quasars, black
Prerequisite: PHYS 207 or PHYS 208.
Credits 3. 3 Lecture Hours Background and tools used in modern astrophysical research, including reduction of photometric and spectroscopic data, signal-to-noise and error calculations and order-of-magnitude
Prerequisite: Grade of C or better in ASTR 314 or approval of instructor.
Credits 3. 3 Lecture Hours How stars are born, how internal structure changes, nuclear fuel burned and ultimate fate; extrasolar planet detection, formation, properties and
Prerequisite: ASTR 314.
Credits 3. 3 Lecture Hours Physical makeup of individual galaxies and large scale structure in the universe; origin and eventual fate of the universe; interpretation of observational data as it relates to baryonic matter, Dark Matter and cosmological models with Dark
Prerequisite: ASTR 314.
Credits 3. 3 Lecture Hours Advanced research techniques used by modern-day astronomers to obtain, process and analyze data from grounds and space-based
Prerequisites: Grade of C or better in ASTR 320 or approval of instructor.
Credits 1 to 12. 1 to 12 Other Hours Special work in laboratory or theory to meet individual requirements in cases not covered by regular
Prerequisite: Approval of department head.
Credits 1 to 4. 0 to 4 Lecture Hours. 0 to 4 Lab Hours Selected topics in an identified topic ofMay be repeated for
Prerequisite: Approval of instructor.
Credits 0 to 4. 0 to 4 Other Hours Research conducted under the direction of faculty member inMay be repeated forRegistration in multiple sections of this course is possible within a given semester provided that the per semester credit hour limit is not
Prerequisites: Junior or senior classification and approval of instructor.