Mar 28, 2024  
2018-2019 Graduate Catalog 
    
2018-2019 Graduate Catalog [ARCHIVED CATALOG]

Courses


Courses offered only online or both online and on-ground are indicated with (**)asterisks.

 

Business Information and Technology

  
  • MIS 8650 - Global Informatn Techn

    (3) Information technology’s impact on globalizations of businesses; international IT environment; models and issues in international IS; planning and managing global systems; case studies and applications. PREREQUISITE(S): MIS 7465 or permission of instructor.
  
  • MIS 8655 - Adv Systems Analysis

    (3) Advanced concepts in information systems planning and development with focus on current information technologies and systems development practices that lead to timely delivery of effective information systems solutions; special attention on communication and interpersonal skills required for today’s systems development activities. PREREQUISITE(S): MIS 7610 .
  
  • MIS 8660 - Advanced Data Management

    (3) Advanced concepts in data management and in the strategic use of data. Topics will be selected from data strategy, business intelligence, data mining and the strategic use of data warehouses, data quality, the business value of data, unstructured data, modern data administration, master data management, data management in cloud computing, data issues in agile development, and other contemporary data topics.
  
  • MIS 8665 - Adv Business Compt Envn

    (3) Technical aspects and managerial implications of several state-of-the-art technologies with potential effects on competitive advantage, probability and cost, and personnel resources. PREREQUISITE(S): MIS 7605 , MIS 7610 , and MIS 7615 ; or permission of the instructor.
  
  • MIS 8670 - Information Security Management

    (3) Comprehensive survey of technical and managerial aspects of computer and network security in the business environment. Emphasis is on managerial issues and decisions related to selecting and managing all aspects of information security.
  
  • MIS 8710 - Sem/Inform Systms I

    (3) Scientific methodology of MIS research; MIS frameworks and theory of MIS; organization-critique and analyze foundational papers; in-depth study of researchable topics. PREREQUISITE(S): Permission of instructor.
  
  • MIS 8720 - Sem/Inform Systms II

    (3) Development of a research proposal; critique and evaluation related to research and the proposal. PREREQUISITE(S): MIS 8710  or permission of instructor.
  
  • MIS 8730 - Theory Building

    (3) Theory building is an important topic for both conceptual and empirical research in business research. This course takes a cross disciplinary approach focusing on how to analyze, construct, and use theory in research. Theories from information systems, marketing, and management are reviewed and best practices in theory building across business disciplines are introduced and applied.
  
  • MIS 8800 - Experimental Research Methods

    (3) This seminar provides in-depth coverage of experimental design research issues and methods in business research. At the completion of the seminar, students should have in-depth knowledge on how to frame questions and hypotheses that are testable using experimental designs, how to frame an experimental study, how to acquire data, conduct the experiment, perform analyses with popular statistical software, and how to write-up research results from an experiment. Course includes weekly lecture and hands-on laboratory sessions. PREREQUISITE(S): permission of instructor.
  
  • MIS 8910 - Prob Mgmt Info Syst

    (1-6) Directed independent research projects in an area selected by the student with approval of supervising faculty member and Faculty Director. Proposed plan of study must be approved prior to enrollment. Grades of A-F, or IP will be given. Grades of A-F, or IP will be given.

Center for Earthquake Research and Information

  
  • CERI 7020 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7021 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7022 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7023 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7024 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7025 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7026 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7027 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7028 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7029 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 7102 - Programming Tools

    (3) (Same as CIVL 7002 /CIVL 8002 ) (Same as CIVL7002/8002) An introduction to applied programming and programming tools for scientists and engineers at a graduate level with limited background on computer programing. Three lecture hours per week. Three lecture hours per week. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 7104 - Data Analysis in Geophysics

    (3) (ESCI 7205; CIVL 7126) (ESCI 7205; CIVL 7126). Overview of data analysis techniques and common tools in geophysics; includes working with the UNIX/LINUX environment; understanding shells; basic programming using Fortran, C, C++, and Perl; generating publishable graphics; emphasis on seismic data analysis using Matlab and Seismic Analysis Code. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7105 - Global Seismology

    (3) (ESCI 7401) (ESCI 7401). Provides foundation for advanced graduate research, including fundamentals of continuum mechanics, vector calculus, and solutions of the vector wave equation in homogeneous and inhomogeneous media; understanding of current theories of earthquake occurrence and wave propagation within the earth. PREREQUISITE(S): Differential equations.
  
  • CERI 7106 - Signal Processing Earth Sci

    (3) (GEOP 7602; GEOL 7358; ESCI 7602; CIVL 7127) (GEOP 7602; GEOL 7358; ESCI 7602; CIVL 7127). Fundamentals of digital processing of geophysical data, both purely mathematical and applied aspects with attention to digital seismograms and gravity and magnetic data. PREREQUISITE(S): MATH 1920 or equivalent.
  
  • CERI 7124 - Earthquake Ground Motion Simul

    (3) (Same as CIVL 7125 -CIVL 8125 ) (Same as CIVL 7125-8125). Contemporary methods in earthquake ground motion simulation, applications in seismic hazard analysis and engineering, state-of-the-art simulation software. Three lecture hours per week. Three lecture hours per week. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 7130 - Engineering Analysis

    (3) (same as CIVL 7001 /CIVL 8001 ) (same as CIVL 7001/8001) Numerical integration of linear and non-linear differential equations; finite difference methods; systems of linear algebraic equations; applications to engineering problems. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7204 - Prob Earthquake Hazard Anal

    (3) (Same as CIVL 7136 ; same as ESCI 7204 ) (Same as CIVL 7136; same as ESCI 7204) Fundamentals of basic probability, seismicity analysis, ground motion attenuation and site effects, seismic hazard analysis, and uncertainty analysis; students will perform a probabilistic seismic hazard analysis for a region of their interest. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7211 - Intro Global Geophysics

    (3) Overview of the important physical characteristics of the solid earth; gravity and the figure of the earth, age of the earth and geochronology, magnetic field and paleomagnetism, plate tectonics, heat energy of the earth, and the internal structure of the earth. PREREQUISITE(S): permission of the instructor.
  
  • CERI 7214 - Near Surface Geophysics

    (3) Application of various geophysical methods to investigate the physical properties of material in the near surface. Students will become familiar with common geophysical field techniques (seismic, gravity, electric, magnetic, etc.) in terms of basic theory, data collection and analysis, and interpretation. Laboratory will involve data collection in the surrounding region.
  
  • CERI 7230 - Exploration Seismology

    (4) (ESCI 7404) (ESCI 7230 -ESCI 8230 ) Examines the reflective seismic approach to mineral exploration, and environmental and tectonic imaging; covers seismic data processing, data visualization, and acquisition procedures, including field equipment; hands-on experience analyzing seismic reflection records.  Three lecture, two laboratory hours per week. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7240 - Earthquake Surface Processes

    (3) (Same as ESCI 7240 /ESCI 8240 ) (Same as ESCI 7240/8240) Overview of the surface and near-surface geological conditions that are associated with earthquake occurrence. Evidence for past large earthquakes as written in the geological record. Hands-on experience will obtained through field work.
  
  • CERI 7244 - Regional Geop Synthesis

    (3) (GEOP 7112; ESCI 7112) (GEOP 7112; ESCI 7112). Theoretical and practical aspects of geophysics applied to determining earth structure and investigating tectonic processes at a regional scale; major topics include gravity, magnetism, heat flow, geoelectric, and seismic methods, and their implications for lithospheric structure and deformational processes. PREREQUISITE(S): permission of instructor.
  
  • CERI 7260 - Inverse Methods in Geophysics

    (3) (GEOP 7603; ESCI 7603; CIVL 7128) (GEOP 7603; ESCI 7603; CIVL 7128). Methods for parameter estimation in earth sciences, including review of linear algebra and vector spaces, introduction to probability and statistics, and solution of inverse linear and nonlinear problems; students will solve an inverse problem in their field of interest. PREREQUISITE(S): Linear Algebra (MATH 3242 or equivalent) or permission of instructor.
  
  • CERI 7270 - Earthquake Source Physics

    (3) Develops the tools for quantitative study of earthquakes and faulting. Covers kinematic moment tensor and finite fault representations of earthquakes, elastodynamics including common models for friction and fracture, and earthquake ground motions in the near source region. PREREQUISITE(S): partial differential equations and a basic background in numerical methods.
  
  • CERI 7280 - Seismotectonics

    (3) Synthesis of earthquake, geophysical, geodetic and geological data to deduce the tectonic framework of active plate boundaries and intraplate seismic zones. Evolution of plate boundaries over time. Space-base geodetic techniques will be emphasized. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 7315 - Comp Methods in Geodynamics

    (3) (GEOL 7315-8315; ESCI 7315-8315) (GEOL 7315-8315; ESCI 7315-8315). Introduces concepts of models and modeling; students will learn to develop and use a broad spectrum of modeling techniques, from simple mathematical models to more sophisticated finite element, finite difference models, and statistical modeling. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7353 - Geodynamics

    (3) (Same as ESCI 7353 ) (Same as ESCI 7353) Physical principles necessary for understanding plate tectonics and geological phenomena; major topics include stress and strain in earth’s crust, bending of lithosphere, heat conduction in lithosphere, and mantel convection, solidification of magmas, mechanical behavior of faults, and subsidence of sedimentary basins. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7355 - Appls Space-Base Geodesy

    (3) (GEOP 7355; ESCI 7355) (GEOP 7355; ESCI 7355) Emphasizes detecting, quantifying, and modeling changes in the geoid and earth’s shape associated with geodynamic processes such as the seismic cycle and earth’s response to loading; concentrates on techniques such as VLBI, SLR, and INSAR. The relationship to traditional geodesy and application of GPS data to earth and space weather are also developed.
  
  • CERI 7375 - Method/Math Physics I

    (3) (GEOP 7376; ESCI 7375) (Same as MATH 7375 ) (GEOP 7376; ESCI 7375; same as MATH 7375). Vector space, matrices, tensors, vector fields, function spaces, differential and integral operators, transform theory, partial differential equations. PREREQUISITE(S): MATH 3120, 4242 and 4350 or permission of the instructor.
  
  • CERI 7376 - Method/Math Physics II

    (3) (GEOP 7376; ESCI 7376) (Same as MATH 7376 , MATH 7376 ) (GEOP 7376; ESCI 7376; same as MATH 7376, PHYS 7376). Complex variables, asymptotic expansions, special functions, calculus of variations, additional topics on matrices and operators, topics in non-linear analysis. PREREQUISITE(S): MATH 7375 .
  
  • CERI 7402 - Intermediate Seismology

    (3) (GEOP 7402; ESCI 7402) (GEOP 7402; ESCI 7402). Provides foundation in seismic wave propagation based on thorough understanding of point source radiation, plane wave theory, optic ray theory, and point sources in plane-layered media. PREREQUISITE(S): A course in partial differential equations.
  
  • CERI 7403 - Advanced Topics in Geophysics

    (3) (GEOP 7403; ESCI 7403-8403) (GEOP 7403; ESCI 7403-8403). Topics may include aspects of theoretical seismology, rock rheology and convection, faulting mechanics, advanced potential field techniques, or advanced field methods. PREREQUISITE(S): Permission of Instructor.
  
  • CERI 7405 - Struct Interp Seism Reflec Dat

    (3) (ESCI 7405-8405) (ESCI 7405-8405) Practical application of reflection seismic method used in tectonic analysis of deformed belts and sedimentary basins, including case studies from around the world that emphasize integration of seismic reflection data with other surface and subsurface geological/ geophysical information, as well as use of restorable structural sections; basics of seismic processing are introduced in the framework of interpretation problems. PREREQUISITE(S): Permission of instructor.
  
  • CERI 7621 - Independent Study

    (1-3) Independent investigation of a research problem selected in consultation with the instructor. May be repeated for a maximum of 6 credit hours. Grades of S/U or IP will be given. May be repeated for a maximum of 6 credit hours Grades of S/U or IP will be given.
  
  • CERI 7701 - Seminar in Geophysics

    (3) (GEOL 7641, GEOP 7701, ESCI 7701). (GEOL 7641, GEOP 7701, ESCI 7701).
  
  • CERI 7702 - Seminar in Seismology

    (3) (GEOP 7702-8702; ESCI 7702-8702). (GEOP 7702-8702; ESCI 7702-8702).
  
  • CERI 7703 - Seminar Earthquake Sys. Sci.

    (3) Modern research techniques for understanding earthquake processes over multiple length and time scales. Focuses on six broad themes: Earth and Fault Structure, Deformation and Earthquake Rates, Earthquake Interactions, Monitoring, Physics-Based Models, and Earthquake Forecasting, emphasizing current research on specific topics within each area. PREREQUISITE(S): permission of the instructor.
  
  • CERI 7996 - Thesis

    (1-6) Student must research, write, and defend a thesis on a topic approved by major professor and advisory committee. Grades of S, U, or IP will be given. Grades of S, U, or IP will be given.
  
  • CERI 8020 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8021 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8022 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8023 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8024 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8025 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8026 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8027 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8028 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8029 - Special Topics in Geophysics

    (3) (ESCI 7020-29-8020-29)
  
  • CERI 8102 - Programming Tools

    (3) (Same as CIVL 7002 /CIVL 8002 ) (Same as CIVL7002/8002) An introduction to applied programming and programming tools for scientists and engineers at a graduate level with limited background on computer programing. Three lecture hours per week. Three lecture hours per week. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 8104 - Data Analysis in Geophysics

    (3) (ESCI 7205; CIVL 8126) (ESCI 7205; CIVL 8126). Overview of data analysis techniques and common tools in geophysics; includes working with the UNIX/LINUX environment; understanding shells; basic programming using Fortran, C, C++, and Perl; generating publishable graphics; emphasis on seismic data analysis using Matlab and Seismic Analysis Code. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8105 - Global Seismology

    (3) (ESCI 7401) (ESCI 7401). Provides foundation for advanced graduate research, including fundamentals of continuum mechanics, vector calculus, and solutions of the vector wave equation in homogeneous and inhomogeneous media; understanding of current theories of earthquake occurrence and wave propagation within the earth. PREREQUISITE(S): Differential equations.
  
  • CERI 8106 - Signal Processing Earth Sci

    (3) (GEOP 7602; GEOL 7358; ESCI 7602; CIVL 8127) (GEOP 7602; GEOL 7358; ESCI 7602; CIVL 8127). Fundamentals of digital processing of geophysical data, both purely mathematical and applied aspects with attention to digital seismograms and gravity and magnetic data. PREREQUISITE(S): MATH 1920 or equivalent.
  
  • CERI 8124 - Earthquake Ground Motion Simul

    (3) (Same as CIVL 7125 -CIVL 8125 ) (Same as CIVL 7125-8125). Contemporary methods in earthquake ground motion simulation, applications in seismic hazard analysis and engineering, state-of-the-art simulation software. Three lecture hours per week. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 8130 - Engineering Analysis

    (3) (Same as CIVL 7001 /CIVL 8001 ) (same as CIVL 7001/8001) Numerical integration of linear and non-linear differential equations; finite difference methods; systems of linear algebraic equations; applications to engineering problems. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8204 - Prob Earthquake Hazard Anal

    (3) (Same as CIVL 7136 ; same as ESCI 7204 ) (Same as CIVL 7136; same as ESCI 7204) Fundamentals of basic probability, seismicity analysis, ground motion attenuation and site effects, seismic hazard analysis, and uncertainty analysis; students will perform a probabilistic seismic hazard analysis for a region of their interest. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8211 - Intro Global Geophysics

    (3) Overview of the important physical characteristics of the solid earth; gravity and the figure of the earth, age of the earth and geochronology, magnetic field and paleomagnetism, plate tectonics, heat energy of the earth, and the internal structure of the earth. PREREQUISITE(S): permission of the instructor.
  
  • CERI 8214 - Near Surface Geophysics

    (3) Application of various geophysical methods to investigate the physical properties of material in the near surface. Students will become familiar with common geophysical field techniques (seismic, gravity, electric, magnetic, etc.) in terms of basic theory, data collection and analysis, and interpretation. Laboratory will involve data collection in the surrounding region.
  
  • CERI 8230 - Exploration Seismology

    (4) (ESCI 7404) Examines the reflective seismic approach to mineral exploration, and environmental and tectonic imaging; covers seismic data processing, data visualization, and acquisition procedures, including field equipment; hands-on experience analyzing seismic reflection records. Three lecture, two laboratory hours per week. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8240 - Earthquake Surface Processes

    (3) (Same as ESCI 7240 /ESCI 8240 ) (Same as ESCI 7240/8240) Overview of the surface and near-surface geological conditions that are associated with earthquake occurrence. Evidence for past large earthquakes as written in the geological record. Hands-on experience will obtained through field work. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 8244 - Regional Geop Synthesis

    (3) (GEOP 7112; ESCI 7112) (GEOP 7112; ESCI 7112). Theoretical and practical aspects of geophysics applied to determining earth structure and investigating tectonic processes at a regional scale; major topics include gravity, magnetism, heat flow, geoelectric, and seismic methods, and their implications for lithospheric structure and deformational processes. PREREQUISITE(S): permission of instructor.
  
  • CERI 8260 - Inverse Methods in Geophysics

    (3) (GEOP 7603; ESCI 7603: CIVL 8128) (GEOP 7603; ESCI 7603: CIVL 8128). Methods for parameter estimation in earth sciences, including review of linear algebra and vector spaces, introduction to probability and statistics, and solution of inverse linear and nonlinear problems; students will solve an inverse problem in their field of interest. PREREQUISITE(S): Linear Algebra (MATH 3242 or equivalent) or permission of instructor.
  
  • CERI 8270 - Earthquake Source Physics

    (3) Develops the tools for quantitative study of earthquakes and faulting. Covers kinematic moment tensor and finite fault representations of earthquakes, elastodynamics including common models for friction and fracture, and earthquake ground motions in the near source region. PREREQUISITE(S): partial differential equations and a basic background in numerical methods.
  
  • CERI 8280 - Seismotectonics

    (3) Synthesis of earthquake, geophysical, geodetic and geological data to deduce the tectonic framework of active plate boundaries and intraplate seismic zones. Evolution of plate boundaries over time. Space-base geodetic techniques will be emphasized. PREREQUISITE(S): Permission of the instructor.
  
  • CERI 8315 - Comp Methods in Geodynamics

    (3) (GEOL 7315-8315; ESCI 7315-8315) (GEOL 7315-8315; ESCI 7315-8315). Introduces concepts of models and modeling; students will learn to develop and use a broad spectrum of modeling techniques, from simple mathematical models to more sophisticated finite element, finite difference models, and statistical modeling. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8353 - Geodynamics

    (3) (Same as ESCI 7353 ) (Same as ESCI 7353) Physical principles necessary for understanding plate tectonics and geological phenomena; major topics include stress and strain in earth’s crust, bending of lithosphere, heat conduction in lithosphere, and mantel convection, solidification of magmas, mechanical behavior of faults, and subsidence of sedimentary basins. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8355 - Appls Space-Base Geodesy

    (3) (GEOP 7355; ESCI 7355) (GEOP 7355; ESCI 7355) Emphasizes detecting, quantifying, and modeling changes in the geoid and earth’s shape associated with geodynamic processes such as the seismic cycle and earth’s response to loading; concentrates on techniques such as VLBI, SLR, and INSAR. The relationship to traditional geodesy and application of GPS data to earth and space weather are also developed.
  
  • CERI 8402 - Intermediate Seismology

    (3) (GEOP 7402; ESCI 7402) (GEOP 7402; ESCI 7402). Provides foundation in seismic wave propagation based on thorough understanding of point source radiation, plane wave theory, optic ray theory, and point sources in plane-layered media. PREREQUISITE(S): A course in partial differential equations.
  
  • CERI 8403 - Advanced Topics in Geophysics

    (3) (GEOP 7403; ESCI 7403-8403) (GEOP 7403; ESCI 7403-8403). Topics may include aspects of theoretical seismology, rock rheology and convection, faulting mechanics, advanced potential field techniques, or advanced field methods. PREREQUISITE(S): Permission of Instructor.
  
  • CERI 8405 - Struct Interp Seism Reflec Dat

    (3) (ESCI 7405-8405) (ESCI 7405-8405) Practical application of reflection seismic method used in tectonic analysis of deformed belts and sedimentary basins, including case studies from around the world that emphasize integration of seismic reflection data with other surface and subsurface geological/ geophysical information, as well as use of restorable structural sections; basics of seismic processing are introduced in the framework of interpretation problems. PREREQUISITE(S): Permission of instructor.
  
  • CERI 8701 - Seminar in Geophysics

    (3) (GEOL 7641, GEOP 7701, ESCI 7701). (GEOL 7641, GEOP 7701, ESCI 7701).
  
  • CERI 8702 - Seminar in Seismology

    (3) (GEOP 7702-8702; ESCI 7702-8702). (GEOP 7702-8702; ESCI 7702-8702).
  
  • CERI 8703 - Seminar Earthquake Sys. Sci.

    (3) Modern research techniques for understanding earthquake processes over multiple length and time scales. Focuses on six broad themes: Earth and Fault Structure, Deformation and Earthquake Rates, Earthquake Interactions, Monitoring, Physics-Based Models, and Earthquake Forecasting, emphasizing current research on specific topics within each area. PREREQUISITE(S): permission of the instructor.
  
  • CERI 9000 - Dissertation

    (1-9) Student must research, write, and defend a thesis on a topic approved by major professor and advisory committee. Grades of S, U, or IP will be given. Grades of S, U, or IP will be given.

Chemistry

  
  • CHEM 6001 - Environmental Chemistry

    (3) Chemical phenomena occurring in soil, atmospheric, and aquatic environments; consideration of natural resources and environment. PREREQUISITE(S): CHEM 3310 and CHEM 3211.
  
  • CHEM 6111 - Intermediate Inorganic CHEM

    (3) Theoretical and applied inorganic chemistry, stressing the relationship of structure and bonding to the properties of elements and compounds; topics include introductory molecular orbital theory, coordination compounds and organometallics, ligand field theory, nonaqueous solvent systems, and reaction mechanisms. PREREQUISITE(S): CHEM 3111 , or permission of the instructor.
  
  • CHEM 6180 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6181 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6182 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6183 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6184 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6185 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6186 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6187 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6188 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6189 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6190 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6191 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6192 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6193 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
  
  • CHEM 6194 - Special Topics in Inorganic Chemistry

    (1-3) Topics are varied and announced in online list of classes.
 

Page: 1 <- 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16Forward 10 -> 67