|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Credits: 3 Cross-Listed with PHYS 711/CHEM 730 Studies microcanonical, canonical, and grand canonical ensembles and fluctuations, as well as Fermi-Dirac and Bose-Einstein statistics. Modeling of ideal, dilute, and diatomic gases, liquids, and crystals. Also covers Liouville equation and simulation in classical statistical mechanics. Introduces Brownian motion, kinetic theory, and transport processes. Prerequisites PHYS 502 and CSI 780, or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Cross-Listed with PHYS 736/CHEM 736 Studies fundamental concepts of quantum mechanics from computational point of view, review of systems with spherically symmetric potentials, many electron atom solutions to Schrodinger's equation, electron spin in many-electron systems, atomic structure calculations, algebra of many-electron calculations, Hartree-Fock self-consistent field method, molecular structure calculations, scattering theory computations, and solid-state computations. Prerequisites PHYS 502 and PHYS 613/ CSI 780, or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Introduces simulation methods in physical chemistry sciences. Covers computational approaches to modeling molecular and condensed matter systems, including interatomic and molecular potentials, molecular dynamics, time averages, ensemble distributions, numerical sampling, thermodynamic functions, response theory, transport coefficients, and dynamic structure. Includes stochastic simulations such as Brownian motion, Langevin dynamics, Monte Carlo methods and random walks, and introduction to cellular automata. Prerequisites PHYS 613/CSI 780 or CHEM 633/CSI 711, or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Covers selected topics in computational aspects of condensed matter, such as methods of electronic structure calculations, surface science, molecular clusters, lattice dynamics, nanomaterials, semiconductors, superconductivity, magnetism, Hubbard model, mesoscopic systems, and liquids. Prerequisites PHYS 512/CSI 687 and PHYS 736/CSI 783, or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Cross-Listed with PHYS 728 Study of diverse, large-scale physical systems emphasizing modeling and simulation of these multifaceted systems. Several projects are undertaken, drawn from such areas as many-body dynamics, atmospheric structure and dynamics, high-temperature plasmas, stellar structure, hydro dynamical systems, galactic structure and interactions, and cosmology. Prerequisites PHYS 613/CSI 780 and CSI 700, or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Cross-Listed with PHYS 780 Selected topics in computational physics not covered in fixed-content computational physics courses. Prerequisites Permission of instructor. Notes May be repeated for credit as needed. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
6.00 Credits
Credits: 1-6 Reading and research on specific topic in computational sciences and informatics under direction of faculty member. May be repeated for a total of 6 credits. Prerequisites Permission of instructor. Hours of Lecture or Seminar per week 0 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Project chosen and completed under guidance of graduate faculty member, resulting in acceptable technical report. Prerequisites 12 graduate credits, and permission of instructor. Hours of Lecture or Seminar per week 0 Hours of Lab or Studio per week 0
-
1.00 - 6.00 Credits
Credits: 1-6 Project chosen and completed under guidance of graduate faculty member, resulting in acceptable technical report (master's thesis) and oral defense. Prerequisites 12 graduate credits, and permission of instructor. Hours of Lecture or Seminar per week 0 Hours of Lab or Studio per week 0 Grading S/IP
-
3.00 Credits
Credits: 3 Selected topics in quantum information science not covered in fixed-content computational sciences courses. Prerequisites Permission of instructor. Notes Course may be repeated for credit as needed. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|