| source University of Texas at Austin (X) |
level Graduate (40) |
department Materials Science and Engineering (X) |
Presentation of research topics by invited speakers, faculty, and students. Three lecture hours a week for one semester. Offered on the credit/no credit basis only. Prerequisite: Graduate standing.
Score: 9.984504 Details | Listing | Web page
Individual research. May be repeated for credit. Offered on the credit/no credit basis only. Prerequisite: Graduate standing.
Score: 9.984504 Details | Listing | Web page
The equivalent of three lecture hours a week for two semesters. Offered on the credit/no credit basis only. Prerequisite: For 698A, graduate standing in materials science and engineering and consent of the graduate adviser; for 698B, Materials Science and Engineering 698A.
Score: 9.984504 Details | Listing | Web page
Preparation of a report to fulfill the requirement for the master’s degree under the report option. The equivalent of three lecture hours a week for one semester. Offered on the credit/no credit basis only. Prerequisite: Graduate standing in materials science and engineering and consent of the graduate adviser.
Score: 9.984504 Details | Listing | Web page
Research leading to the Doctor of Philosophy in materials science and engineering. Offered on the credit/no credit basis only. Prerequisite: Admission to candidacy for the doctoral degree.
Score: 9.984504 Details | Listing | Web page
Research leading to the Doctor of Philosophy in materials science and engineering. Offered on the credit/no credit basis only. Prerequisite: Materials Science and Engineering 399R, 699R, or 999R.
Score: 9.984504 Details | Listing | Web page
Three lecture hours or two lecture hours and three laboratory hours a week for one semester, depending on the topic. May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
The equivalent of three or six class hours a week for one semester. Any number of topics may be taken for credit, and, with consent of instructor, any topic may be repeated for credit. Prerequisite: Graduate standing in chemical engineering, or graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Application of basic diffraction theory to polycrystalline and single crystal materials. Three lecture hours a week for one semester. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Application of X-ray diffraction techniques to the examination of polycrystalline and single crystal materials. Two or three lecture hours and three or four laboratory hours a week for one semester. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Applications of thermodynamics to chemical engineering processes. Three lecture hours a week for one semester. Prerequisite: Graduate standing in chemical engineering, or graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Details of polymerization mechanisms; structure-property relationships, fundamentals of processing, and characterization of high polymers. Three lecture hours a week for one semester. Prerequisite: Graduate standing.
Score: 9.984504 Details | Listing | Web page
Introduction to the chemical processes and the manufacturing operations used in microelectronics device fabrication. Three lecture hours a week for one semester. Prerequisite: Graduate standing.
Score: 9.984504 Details | Listing | Web page
Training in the preparation and instrumental characterization of polymers, blends, and compounds. Twelve laboratory hours a week for one semester. Prerequisite: Graduate standing.
Score: 9.984504 Details | Listing | Web page
Three lecture hours a week for one semester. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Topics include magnetic resonance; organometallic, main-group, and transition metal chemistry; nonaqueous solvents; high-temperature superconductors; new developments in synthetic chemistry; and aspects of inorganic chemistry relevant to material science. Three lecture hours a week for one semester. May be repeated for credit when the topics vary. Prerequisite: Graduate standing in chemistry, Chemistry 380L, and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Topics include electrochemistry, electronics, mathematical methods, mass spectrometry, and optical methods. For most topics, three lecture hours a week for one semester; for topics on electronics and optical methods, two lecture hours and three laboratory hours a week for one semester. May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Theory of macromolecular solutions and methods for characterization of macromolecular systems. Three lecture hours a week for one semester. Prerequisite: Graduate standing, and undergraduate coursework in physical chemistry or consent of instructor.
Score: 9.984504 Details | Listing | Web page
Topics include magnetic resonance, electron scattering; quantum scattering in gases; chemical kinetics. Three lecture hours a week for one semester. May be repeated for credit when the topics vary. Prerequisite: Graduate standing in chemistry, Chemistry 382M, and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Theory of electron, magnetic, and electro-optic devices. Three lecture hours a week for one semester. May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Quantum mechanical principles as applied to electron devices, lasers, and electro-optics; material properties and interaction of radiation and material. Three lecture hours a week for one semester. May be repeated for credit when the topics vary. Prerequisite: Graduate standing in electrical engineering or physics.
Score: 9.984504 Details | Listing | Web page
Physical basis of plastic deformation; mathematical theory of incremental plasticity; total theories; numerical implementation; slip and physical theories of plastic deformation; rate dependent (viscoplastic) models; applications to several engineering problems. Three lecture hours a week for one semester. Prerequisite: Graduate standing, and Engineering Mechanics 388 or the equivalent.
Score: 9.984504 Details | Listing | Web page
Foundations of the general nonlinear theories of continuum mechanics; general treatment of motion and deformation of continua, balance laws, constitutive theory; particular application to elastic solids and simple materials. Three lecture hours a week for one semester. Prerequisite: Graduate standing, and Engineering Mechanics 386K or consent of instructor.
Score: 9.984504 Details | Listing | Web page
Same as Aerospace Engineering 384P (Topic 1: Solid Mechanics I ). Mathematical description of stress, deformation, and constitutive equations of solid mechanics; boundary value problems of elasticity. Three lecture hours a week for one semester. Prerequisite: Graduate standing and consent of instructor.
Score: 9.984504 Details | Listing | Web page
Griffith theory of brittle crack propagation, other theories, crack toughness testing concepts. Three lecture hours a week for one semester. Prerequisite: Graduate standing, and Engineering Mechanics 388 or consent of instructor.
Score: 9.984504 Details | Listing | Web page