Apr 20, 2024

Graduate Catalog 2017 - 2018

Graduate Catalog 2017 - 2018 [ARCHIVED CATALOG]

Course Descriptions

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Chemistry
	CHM 714 - Chromatography and Separation [4 credit(s)] Prerequisite: CHM 511 or equivalent. Comprehensive survey of separation techniques, including solvent extraction, gas chromatography, liquid chromatography, supercritical fluid chromatography, chromatography detectors, gel electrophoresis, and capillary electrophoresis. Click here for the schedule of courses
	CHM 715 - Advanced Mass Spectrometry [3 credit(s)] Prerequisite: Approval of advisor. This course covers electrospray, MALDI, CI, APCI, EI, and other novel ionization methods, as well as quadruple, TOF, FTMS, and double sector mass spectrometry. GC/MS and LC/MC also are discussed. Click here for the schedule of courses
	CHM 716 - Advanced Spectroscopic Methods [3 credit(s)] Prerequisite: CHM 511 or equivalent. Theory and techniques in modern optical spectroscopic analysis. Click here for the schedule of courses
	CHM 719 - Theory Of Analytical Chemistry [3 credit(s)] Prerequisite: CHM 612/712. Advanced theoretical treatment of analytical chemistry. Click here for the schedule of courses
	CHM 725 - Quantum Mechanics [4 credit(s)] Prerequisite: Approval of Advisor or one year of undergraduate physical chemistry. Principles of quantum theory including aspects of structure and spectroscopy. Will include projects using common quantum computational software programs. Click here for the schedule of courses
	CHM 730 - Special Topics In Organic Chemistry [4 credit(s)] Prerequisite: CHM 631/731 or approval of instructor. Discussion of special topics in organic chemistry reflecting student and faculty interests. Click here for the schedule of courses
	CHM 731 - Organic Structure and Bonding [4 credit(s)] Prerequisite: CHM 332 or equivalent. Structure and properties of organic compounds, including stereochemistry, conformational analysis, aromaticity, reactions, and reaction intermediates. Click here for the schedule of courses
	CHM 733 - Organic Reactions [4 credit(s)] Prerequisite: CHM 731. A study of the mechanisms of organic reactions and their implications in synthetic and structural organic chemistry. Click here for the schedule of courses
	CHM 740 - Special Topics In Inorganic Chemistry [4 credit(s)] Prerequisite: Approval of advisor. Discussion of special topics in inorganic chemistry, reflecting student and faculty interests. Currently, bioinorganic chemistry and inorganic nanotechnology are the modern topics. Examples from the newest chemical literature will be discussed. Click here for the schedule of courses
	CHM 741 - Inorganic Mechanisms and Structures [4 credit(s)] Prerequisite: CHM 441 or equivalent. Application of chemical kinetics, thermodynamics, and elementary quantum chemistry to the determination of mechanisms of inorganic reactions; structural aspects of inorganic reactivities. Introduction to bioinorganic chemistry. Applications cover almost every element and examples from the newest chemical literature. Click here for the schedule of courses
	CHM 742 - Theoretical Inorganic Chemistry [4 credit(s)] Prerequisite: CHM 625/725 or equivalent. Symmetry and group theory of inorganic and organometallic compounds; irreducible representations and character tables; applications to valence-bond and molecular-orbital theories of chemical bonding, structures, and spectroscopy. Applications cover examples from the newest chemical literature. Click here for the schedule of courses
	CHM 750 - Special Topics In Clinical Chemistry [1 credit(s)] Prerequisite: Approval of advisor. Discussion of special topics in clinical chemistry and related clinical disciplines. May be repeated for credit with change of topic. Click here for the schedule of courses
	CHM 751 - Clinical Chemistry I [4 credit(s)] Laboratory diagnosis of kidney, liver, and hemolytic diseases. Instruction includes physiology and pathophysiology in conjunction with laboratory testing for the above diseases. Laboratory statistics also are covered. Click here for the schedule of courses
	CHM 752 - Clinical Chemistry II [4 credit(s)] Laboratory investigations of disorders in acid-base balance, lipid and carbohydrate metabolism, and endocrine functions. Biochemical markers of myocardial infarction. Case studies. Click here for the schedule of courses
	CHM 753 - Advanced Biochemistry I [4 credit(s)] Prerequisite: CHM 332 or CHM 402. Chemistry of proteins, carbohydrates, and lipids; immunology and AIDS. Enzyme and energetics of metabolic reactions. Click here for the schedule of courses
	CHM 754 - Advanced Biochemistry II [4 credit(s)] Prerequisite: CHM 653/753. Metabolism of nitrogen-containing compounds, vertebrate metabolism, neurotransmission, nucleotides, and nucleic acids, DNA processes, RNA synthesis and processing, protein synthesis, gene expression, and cancer. Click here for the schedule of courses
	CHM 755 - Biotechnology Techniques I [4 credit(s)] Techniques of immunoassays and techniques of isolation, manipulation, and analysis of proteins/nucleic acids are covered. Includes both lecture and laboratory. Click here for the schedule of courses
	CHM 756 - Internship In Clinical Chemistry I [6 credit(s)] Prerequisite: Approval of the Director of Clinical Chemistry. Students rotate through the clinical laboratory at Cleveland medical centers, being trained in instrumentation, quality control, and diagnostic uses of various testing methodologies. Students are assigned evaluations and/or development projects for a more in-depth experience. Management issues of the clinical laboratory also are addressed. Offered in the summer to clinical chemistry majors only. Click here for the schedule of courses
	CHM 757 - Internship In Clinical Chemistry II [11 credit(s)] Prerequisite: Approval of the Director of Clinical Chemistry. Students rotate through instrumentation stations not covered in the first internship course (CHM 656/756) in the clinical laboratory at The Cleveland Clinic Foundation or other medical facility. Topic areas are the same as described for CHM 656/756. Offered in the summer to clinical chemistry majors only. Click here for the schedule of courses
	CHM 759 - Clinical Chemistry Seminar [1 credit(s)] Tutorial and student participation program emphasizing current developments in various facets of clinical chemistry. Open only to clinical chemistry majors. Click here for the schedule of courses
	CHM 761 - Macromolecular Structure and Dynamics [4 credit(s)] Prerequisites: Undergraduate organic chemistry, physical or analytical chemistry or prior permission of the Faculty instructor. Survey of basic and advanced analytical techniques that are critical in investigations of structure and dynamics of biomolecules, including protein, DNA and RNA folding and structures and function. Examination of biomolecules using basic and ADVANCED techniques including spectroscopic, time-resolved, and molecular imaging techniques. Click here for the schedule of courses
	CHM 779 - Advanced Chemistry Laboratory [1-11 credit(s)] Prerequisite: Approval of advisor. An advanced laboratory program in selected techniques to be determined by the needs and interests of the student. Offered every semester. Click here for the schedule of courses
	CHM 790 - Annual Research Report [1 credit(s)] Prerequisite: Departmental Approval. Written report and oral presentation of research progress to student’s Research Advisor and Thesis/Dissertation Committee; includes submission of figures and data, and receiveing feedback from the Advisor and the Committee. Click here for the schedule of courses
	CHM 791 - Chemistry Internship [1 credit(s)] Prerequisites: Graduate standing, completion of at least one full-time academic year in the Chemistry MS program or in the Clinical-Bioanalytical Chemistry PhD program, and permission of advisor. Provides students with practical experience in chemical and its applied fields. Students are required to submit a final project report and make an oral presentation at the end of the course. May be repeated one time for credit. Graded on an S/U basis. Click here for the schedule of courses
	CHM 795 - Chemistry Seminar [1 credit(s)] Introduction to effective collection, organization, and presentation of technical information. Students are required to present seminars, preferably dealing with some aspect of their proposed research program. Click here for the schedule of courses
	CHM 891 - Candidacy Examination [1 credit(s)] Prerequisite: Approval of advisor. Offered every semester. Click here for the schedule of courses
	CHM 899 - Ph.D. Dissertation [1-16 credit(s)] Prerequisite: Departmental approval. Doctoral research under the direction of a faculty advisor; includes submission of an acceptable dissertation. Offered every semester. Click here for the schedule of courses
Civil Engineering
	CVE 500 - Mathematical Methods In Engineering Mechanics [4 credit(s)] Partial differential equations, integral equations, complex variables, integral transforms, and variational calculus as applied to the areas of elasticity, plasticity, fracture mechanics, materials science, and structural engineering. Click here for the schedule of courses
	CVE 504 - Civil Engineering Systems Analysis [3 credit(s)] Application of standard mathematical optimization procedures to the solution of linear and nonlinear civil engineering systems. Click here for the schedule of courses
	CVE 505 - Reliability [4 credit(s)] Includes a basic review of probability and statistics. Aspects of Monte Carlo simulation are discussed as it relates to reliability analysis and parameter estimation. Concepts of Weibull analysis and weakest link theory will be thoroughly discussed along with other system reliability topics. Standard techniques to estimate statistical parameters are presented. Limit state functions, the reliability index, and approximate methods are discussed. Code provisions based on probabilistic methods will be presented. Click here for the schedule of courses
	CVE 511 - Matrix Methods In Structural Analysis [3 credit(s)] Energy methods approach to matrix structural analysis, including the development of element material stiffness, geometric stiffness, and mass matrices of basic structural elements; emphasis on the displacement method with computer program solutions of truss and frame problems. Click here for the schedule of courses
	CVE 512 - Finite Element Analysis I [4 credit(s)] Techniques in the formulation and application of the Finite Element method. Calculus of variation, potential energy and Galerkin formulations of element stiffness equations. Uniaxial, biaxial element, Isoparametric element formulations. Applications to plane stress, plane strain, and axisymmetric problems; solutions of engineering problems using computer software. Click here for the schedule of courses
	CVE 513 - Advanced Strength Of Materials [4 credit(s)] Prerequisite: ESC 211. This course fosters an understanding of a number of advanced concepts in the field of engineering mechanics. Topics include three-dimensional stress-strain relationships, including failure theories; bending of non-symmetrical members; curved beam theory; beams on elastic foundations; torsion of non-circular shafts using the membrane analogy; and plate theory. Click here for the schedule of courses
	CVE 521 - Behavior and Properties of Concrete [3 credit(s)] Prerequisite: CVE 422. Properties of hydraulic cements, aggregates, plastic, and hardened concrete; effect of admixtures and curing conditions; specifications and acceptance tests; placement, consolidation, finishing, and durability of concrete. Click here for the schedule of courses
	CVE 523 - Prestressed Concrete [3 credit(s)] Prerequisite: CVE 422. Immediate and long-term stress losses in post-tensioned and pre-tensioned members; analysis and design of post-tensioned and pre-tensioned members for flexure and shear; proportioning of members, calculation of the amount, and positioning of reinforcement. Click here for the schedule of courses
	CVE 524 - Nondestructive Evaluation [4 credit(s)] Methods of nondestructive evaluation are studied. Topics include ultrasonics, acoustic emissions, penetrants, eddy current, X-ray and neutron radiography, digital radiography, computed tomography, and thermography. Cross-listed with MME 524. Click here for the schedule of courses
	CVE 528 - Structural Wood Design [4 credit(s)] Vertical dead and live loads due to gravity, roof, and floor. Lateral design loads due to wind and seismic. Properties and grades of sawn lumber and glulam members, modification factors of allowable stresses; analysis and design of axially loaded members, combined axial and bending effects. Properties and grades of plywood and other rated sheathing; analysis and design of horizontal diaphragms, chords, drag struts, and shearwalls. Design of nailed, bolted connections; timber connectors and connection hardware. Click here for the schedule of courses
	CVE 530 - Advanced Soil Mechanics [3 credit(s)] Soil mineralogy, determination of soil composition, clay-water electrolyte systems, soil composition, and engineering properties. Conduction phenomenon. Frozen soil engineering. Click here for the schedule of courses
	CVE 531 - Advanced Foundations [3 credit(s)] Subsurface explorations; shallow foundations; design of spread footings, mats, retaining walls, and deep foundations; design of piles, piers, and caissons. Click here for the schedule of courses
	CVE 540 - Soil Stabilization and Decontamination [4 credit(s)] Engineering classification of soils, clay mineralogy, properties of different types of soils, such as strength, permeability, volume-density characteristics; soil contaminant interaction, method of soil stabilization, method of soil decomposition, process selection, and site remediation. Soil decontamination design project. Click here for the schedule of courses
	CVE 541 - Traffic Flow Theory [3 credit(s)] The Traffic Flow Theory course provides the basic concepts and theories of traffic flow characteristics and the associated analytical techniques. This course reviews the foundations of traffic science and presents the major classes of models derived for traffic flow. Recent developments and topics of current research are introduced. The course also addresses the implications of the models and the traffic system properties for traffic operations and control. Click here for the schedule of courses
	CVE 542 - Urban Transportation Planning [3 credit(s)] Focus on factors involved in the process of urban planning and regional transportation systems, encompassing all modes. Provides students with theory and applications of urban transportation planning studies, traffic models, investment models, programming and scheduling. Click here for the schedule of courses
	CVE 543 - Highway Safety [3 credit(s)] This course covers: Crashes, contributing factors, crash analysis and estimation methods, and the roadway safety management process including: network screening;diagnosis; selection of countermeasures; economic analysis; project prioritization; and safety effectiveness evaluation. Click here for the schedule of courses
	CVE 546 - Transportation Engineering [3 credit(s)] Survey of transportation development, characteristics, and planning; traffic characteristics capacity of various systems, including basic procedures, controls, and criteria in highway design; environmental considerations. Click here for the schedule of courses
	CVE 547 - Highway Engineering [3 credit(s)] Properties of materials used in highway construction. Effects of loading and the environment on pavement life. Design of flexible and rigid pavement systems. Construction methods and management. Click here for the schedule of courses
	CVE 561 - Hydrologic Analysis [3 credit(s)] Characterization and analysis of the hydrologic cycle and associated hydrologic abstractions. Statistical analysis of hydrologic events, hydrologic routing, and the effects of urbanization on the hydrologic response of a watershed. Click here for the schedule of courses
	CVE 562 - Open Channel Hydraulics [3 credit(s)] Application of the principles of the conservation of mass, energy, and momentum to open channel flow phenomena. Analysis of open channel hydraulic structures and floodplain hydraulics. Emphasis is on computer applications and numerical methods. Click here for the schedule of courses
	CVE 563 - Water Resources Engineering [3 credit(s)] Analysis and hydraulic design of water resource engineering subsystems, including subsurface drainage, pressure flow systems, pumps and turbines, reservoirs, spillways, and landfills. Click here for the schedule of courses
	CVE 564 - Groundwater Hydrology [3 credit(s)] Analysis of the physical properties and the resultant groundwater flow in porous media. Application of the principles of the conservation of mass, energy, and momentum to groundwater flow systems. Includes well hydraulics, well design, aquifer analysis, infiltration, flow in the unsaturated zone, and introduction to groundwater contamination. Click here for the schedule of courses
	CVE 565 - Hydrologic Modeling [3 credit(s)] Prerequisite: CVE 561. Numerical and statistical methods employed in computer models that simulate the movement of surface water through the hydrologic cycle. Emphasizes the utilization of computer programs to evaluate the hydrologic response of watersheds. Click here for the schedule of courses
	CVE 593 - Special Topics In Civil Engineering [1-4 credit(s)] Topics of current interest to the civil engineering profession. Offered on sufficient demand. Click here for the schedule of courses
	CVE 601 - Civil Engineering Graduate Sem [1 credit(s)] Prerequisite: Graduate Standing. Provides students with experience and instruction on research and presentation methods and oral communication of technical information, focused on civil engineering issues. Invited experts from industry and academia, from various civil engineering field, present and discuss current issues and trends in research and professional practice. Students will present a research paper at the end of the course. Click here for the schedule of courses
	CVE 602 - Civil Engineering Internship [1 credit(s)] Prerequisites: Graduate standing in Civil Engineering, completion of at least one full-time academic year in MSCE or Doctor of Engineering program, and permission of advisor. This internship provides students with practical experience in civil/environmental engineering. Students are required to submit a final project report and make a presentation at the end of the course. May be taken up to two times for credit. Click here for the schedule of courses
	CVE 604 - Elasticity [4 credit(s)] Prerequisite: CVE 513. Elasticity topics include tensor algebra, fundamentals of stress analysis, fundamentals of deformation theory, thermo-elastic constitutive relationships, uniqueness of solution, Airy’s stress function, and various solution techniques for two-dimensional problems. Click here for the schedule of courses
	CVE 609 - Energy Methods In Structural Mechanics [3 credit(s)] Click here for the schedule of courses
	CVE 612 - Finite Element Analysis II [4 credit(s)] Prerequisite: CVE 512 or MCE 580. Advanced techniques in the formulation of the Finite Element with applications. Development of three dimensional elements, tetrahedrals and hexahedrals. Formulation of thin and moderately thick plate bending elements and shell elements. 3D isoparametric beam, plate and shell elements, solutions of engineering problems using computer software. Click here for the schedule of courses
	CVE 613 - Nonlinear Finite Element Analysis [3 credit(s)] Prerequisites: CVE 512 and/or permission of instructor. Isoparametric finite element discretization, incremental equations of motion. Total and updated Lagrangian formulations. Nonlinear geometry, nonlinear material problems in two and three dimensions. Computer solution of problems. Click here for the schedule of courses
	CVE 614 - Elastic Instability [3 credit(s)] Prerequisite: CVE 511. Euler buckling of bars, beam/columns, and plates using matrix methods; concepts of geometric nonlinearity, including bifurcation and limit point analysis using iterative numerical techniques; applications to load eccentricity and system imperfection. Click here for the schedule of courses
	CVE 620 - Fracture Mechanics and Plasticity Theory [4 credit(s)] Prerequisite: CVE 604. The stress and deformation field in the region of a crack are derived using linear elastic analysis. Topics include analyzing the change in potential energy due to crack propagation (Griffith’s analysis), understanding the origin of critical fracture toughness parameters, and developing fundamental fracture criteria. In addition the course focuses on time-dependent plastic deformation analysis. Relationships between stress and strain that agree with experimental observations beyond the yield stress are constructed. Applications of these inelastic constitutive relationships in predicting plastic deformations in simple components are presented. Drucker’s stability postulates are discussed, and the principles of slip-line theory are given. General theorems of limit analysis and their application in structural analysis are highlighted. The J-integral and fundamentals of elastic-plastic fracture analysis are presented. Click here for the schedule of courses
	CVE 622 - Fatigue Analysis [2 credit(s)] Prerequisite: CVE 620. The fundamental concepts of crack growth in the presence of cyclic stress are considered. The fracture mechanics approach is adopted. Similitude concepts, common empirical and semi-empirical equations, variable amplitude loading, and rain-fall analysis are discussed. Click here for the schedule of courses
	CVE 625 - Viscoelasticity [2 credit(s)] Prerequisite: CVE 604. Modeling of continua as a viscoelastic material in which stress and strain fields in deformable bodies are time and spatially dependent. Viscoelastic models include Maxwell fluids and Kelvin solids. Creep phenomena, stress relaxation, hereditary integrals, viscoelastic beams, beams on continuous supports, vibration, and wave propagation in viscoelastic materials are studied. Click here for the schedule of courses
	CVE 665 - Hydrologic Modeling [3 credit(s)] Prerequisite: CVE 561. Numerical and statistical methods employed in computer models that simulate the movement of surface water through the hydrologic cycle. Emphasizes the utilization of computer programs to evaluate the hydrologic response of watersheds. Click here for the schedule of courses
	CVE 693 - Special Problems In Civil Engineering [1-4 credit(s)] Detailed study of a special topic under the guidance of a faculty member. Click here for the schedule of courses
	CVE 696 - Independent Study In Civil Engineering [1-4 credit(s)] Prerequisite: Chair approval. Detailed individual study on a special topic under the guidance of a faculty member. Click here for the schedule of courses
	CVE 697 - Master’s Research [1-8 credit(s)] Prerequisite: Graduate standing in civil engineering. Up to eight credits may be considered toward thesis credit requirements. Click here for the schedule of courses
	CVE 699 - Thesis [1-8 credit(s)] A design project or a research problem under the guidance of a faculty member, culminating in the writing of a thesis. Click here for the schedule of courses
	CVE 701 - Civil Engineering Graduate Seminar [1 credit(s)] Prerequisite: Graduate Standing. Provides students with experience and instruction on research and presentation methods and oral communication of technical information, focused on civil engineering issues. Invited experts from industry and academia, from various civil engineering field, present and discuss current issues and trends in research and professional practice. Students will present a research paper at the end of the course. Click here for the schedule of courses
	CVE 704 - Elasticity [4 credit(s)] Prerequisite: CVE 513. Elasticity topics include tensor algebra, fundamentals of stress analysis, fundamentals of deformation theory, thermo-elastic constitutive relationships, uniqueness of solution, Airy’s stress function, and various solution techniques for two-dimensional problems. Click here for the schedule of courses
	CVE 709 - Energy Methods In Structural Mechanics [3 credit(s)] Prerequisite: CVE 604 or permission of instructor. Development of the principles of virtual work, total potential energy, complementary virtual work, total complementary energy, and Reissner’s principle for solid mechanics problems. Castigliano theorems, Ritz, Galerkin, and finite element methods. Applications in structural mechanics problems for bars, beams, columns, plates, and shells. Offered on sufficient demand. Click here for the schedule of courses
	CVE 712 - Finite Element Analys II [3 credit(s)] Prerequisite: CVE 512. Extension of the finite element method to the solution of advanced three-dimensional stress analysis problems. Offered on sufficient demand. Click here for the schedule of courses
	CVE 713 - Nonlinear Finite Element Analysis [3 credit(s)] Prerequisites: CVE 512 and/or permission of instructor. Isoparametric finite element discretization and incremental equations of motion. Total and updated Lagrangian formulations. Nonlinear geometry and nonlinear material problems in two- and three-dimensions. Computer solution of problems. Offered on sufficient demand. Click here for the schedule of courses
	CVE 714 - Elastic Instability [3 credit(s)] Prerequisite: CVE 511. Euler buckling of bars, beam/columns, and plates using matrix methods; concepts of geometric nonlinearity, including bifurcation and limit point analysis using iterative numerical techniques; applications to load eccentricity and system imperfection. Click here for the schedule of courses
	CVE 720 - Fracture Mechanics and Plasticity Theory [4 credit(s)] Prerequisite: CVE 604. The stress and deformation field in the region of a crack are derived using linear elastic analysis. Topics include analyzing the change in potential energy due to crack propagation (Griffith’s analysis), understanding the origin of critical fracture toughness parameters, and developing fundamental fracture criteria. In addition, the course focuses on time-dependent plastic deformation analysis. Relationships between stress and strain that agree with experimental observations beyond the yield stress are constructed . Other highlighted topics include the application of these inelastic constitutive relationships in predicting plastic deformations in simple components; Drucker’s stability postulates; the principles of slip-line theory; general theorems of limit analysis and their application in structural analysis; and the J-integral and fundamentals of elastic-plastic fracture analysis. Click here for the schedule of courses
	CVE 722 - Fatigue Analysis [2 credit(s)] Prerequisite: CVE 620. The fundamental concepts of crack growth in the presence of cyclic stress are considered. The fracture mechanics approach is adopted. Similitude concepts, common empirical and semi-empirical equations, variable amplitude loading, and rain fall analysis are discussed. Click here for the schedule of courses
	CVE 725 - Viscoelasticity [2 credit(s)] Prerequisite: CVE 604. Modeling of continua as a viscoelastic material where stress and strain fields in deformable bodies are time and spatially dependent. Viscoelastic models include Maxwell fluids and Kelvin solids. Creep phenomena, stress relaxation, hereditary integrals, viscoelastic beams, beams on continuous supports, vibration, and wave propagation in viscoelastic materials are studied. Click here for the schedule of courses
	CVE 793 - Special Problems In Civil Engineering [1-4 credit(s)] Detailed study of a special topic under the guidance of a faculty member. Offered on sufficient demand. Click here for the schedule of courses
	CVE 897 - Doctoral Research [1-16 credit(s)] Prerequisite: Standing in Engineering Doctoral Program. Up to 10 credits may be used toward the dissertation credit requirements. Available every semester. Click here for the schedule of courses
	CVE 899 - Dissertation [1-16 credit(s)] Prerequisite: Successful completion of candidacy examination and Dissertation Proposal Approval Form on file with the College of Graduate Studies. A design project or a research problem under the guidance of a faculty member, culminating in the writing of a dissertation. Available every semester. Click here for the schedule of courses
Communication
	COM 501 - Pro Seminar In Communication [3 credit(s)] Introduction to the history of science, communication theories, and the nature of scientific inquiry. Focuses on a survey of major theories, the logic of communication inquiry, techniques in literature search and review, and the skills in critiquing research. Also examines the structure and logic of the scientific method, as well as different research methodologies and when they are employed. Introduces students to key principles of design, sampling, reliability and validity, measurement, and hypothesis testing. Click here for the schedule of courses
	COM 512 - Communication Research Methods [3 credit(s)] Examines specific quantitative and qualitative research methods, including survey, experimental, and observational designs. Emphasis is on design and execution of research for exploratory, descriptive, and explanatory purposes. Students also learn statistical procedures employed in analyzing data through an introduction to multivariate statistics and an overview of t-tests, analysis of variance, and multiple regression techniques. Click here for the schedule of courses
	COM 543 - Theory Building [3 credit(s)] The examination of the structure, assumptions, and testing of various theories in the physical and social sciences. This course will examine their application to communication science as well as theory construction techniques. Click here for the schedule of courses
	COM 544 - Mediation and Collaborative Problem Solving [3 credit(s)] Examines how mediation works, factors that determine whether mediation can be used to resolve disputes, and the conditions under which mediation is most effective. Click here for the schedule of courses
	COM 548 - Managing Organizational Teams [3 credit(s)] Focuses on the structure, functions, and processes of organizational teams and work groups. Special attention is given to promoting effective teamwork in today’s organizations through methods of team building and examining leadership issues confronting teams. Click here for the schedule of courses
	COM 549 - Health Communication [3 credit(s)] Focuses on interactions of people involved in the health care process and the dissemination and interpretation of health-related messages. Emphasis is on provider-recipient communication, communication in health concerns as they relate to physical, mental, and social health issues. Click here for the schedule of courses
	COM 555 - Communication Campaigns [3 credit(s)] Prerequisites: COM 501 & COM 512; or permission of the Graduate Director. Introduces students to the fundamentals of communication campaigns, including public information and political campaigns. Course content encompasses the role of campaigns in shaping social, cultural, and political agendas; theoretical foundations of communication campaigns; and campaign management techniques. Students participate in an actual campaign exercise to gain experience as campaign strategists. Students do analysis of Social Marketing Campaign(s) from literature. Click here for the schedule of courses
	COM 564 - Media Metrics & Analytics [3 credit(s)] Prerequisites: Graduate Standing in Applied Communication Theory & Methodology or permission of instructor. This course emphasizes practical aspects of promotional communication. It examines the process by which media messages are evaluated in various media environments with an emphasis on social media. The course will explore key social media metrics and analytics to allow students to track digital and social media content. Students will learn how to evaluate a social media campaign’s success. The course will also introduce user experience concepts and measurement tools. Click here for the schedule of courses
	COM 595 - Special Topics in Communication Theory & Methodology [3 credit(s)] In-depth research in a specific topic in communication theory and methodology. Topics to be announced. May be repeated to a maximum of 6 hours provided no topic is repeated. Click here for the schedule of courses
	COM 610 - Organizational Communication Theory [3 credit(s)] Prerequisite: COM 501 or permission of instructor. Focuses on three main issues: 1) major theoretic approaches to studying organizations, and the communication models emphasized in each approach; 2) major variations in processes and effects of organizational communication when analyzed by the structure, function, and level of communication system; 3) applications of concepts and principles for describing and analyzing organizational communication processes and effects. Click here for the schedule of courses
	COM 620 - Relational Communication [3 credit(s)] Focuses on communication networks and the relational dimensions of communication behavior, including control and affective functions of verbal and nonverbal communication and examination of human communication models as they relate to both information theory and the “systems approach.” Emphasis on interaction theories of personality in explaining interpersonal communication behavior. Click here for the schedule of courses
	COM 630 - Media Theory [3 credit(s)] Provides students with an introduction to the major theories and concepts in the field of media and mass communication. Attention is devoted to communication perspectives and to psychological perspectives. Topics include determinants of mass media news, effects of television news, political advertising and debates, television violence effects, TV and children, media economics, and the sociology and psychology of the mass media audience. Click here for the schedule of courses
	COM 631 - Multivariate Statistical Methods [3 credit(s)] Prerequisite: COM 512. Advanced methods course on multivariate statistical methods used in analyzing research in human communication. Focuses primarily on understanding these methods and statistics rather than on their actual performance and calculation. Students should be able to critically read and analyze published research in communication, including the methodological and statistical sections of these articles, as well as to use computer programs to apply multivariate statistical tests, including factor analysis, multiple regression, MANOVA models, and structural equation modeling. Click here for the schedule of courses
	COM 633 - Content Analysis Research Methods [3 credit(s)] An empirical and systematic investigation of documented messages in print, graphical, and audio-visual forms and observed human communication behaviors. Focuses on the design and execution of content analytic studies, including form vs. content variables, measurement issues, reliability and validity assessment, a systems view of research findings, use of a computer text analysis program, and traditional human-coder techniques. Click here for the schedule of courses
	COM 634 - Qualitative Research Methods [3 credit(s)] The goals of this introductory course in qualitative research methods in communication are to introduce several major qualitative research approaches and methods, and teach participants to develop basic skills in the use of qualitative research methods and data analysis. This course will focus on various qualitative techniques such as intensive interviews, field observation and the use of various cultural texts. Click here for the schedule of courses
	COM 640 - Persuasive Communication [3 credit(s)] Prerequisite: COM 501 or permission of instructor. Study of persuasive communication and campaigns. Focuses on major communication theories of persuasion, current issues and problems in persuasive communication and includes an examination of mass and interpersonal persuasive campaign issues such as attitude formation, fear appeals, cognitive dissonance theory, and interpersonal persuasion. Students may construct campaigns and persuasive appeals for application. Click here for the schedule of courses
	COM 641 - Political Communication [3 credit(s)] This seminar explores theory and research on political communication. The role of mass media and public opinion in American politics is examined, focusing on media and elections, agenda setting, political advertising, campaigning, and presidential debates. Contemporary and classic theories of press and politics are critically examined. Click here for the schedule of courses
	COM 642 - Communication and Technology [3 credit(s)] An in-depth study of the fundamental nature and components of existing and emerging communication technologies and their relationship to society. Focuses on the discussion of current sociocultural, economic, and regulatory issues relevant to the development of these technologies and their ongoing convergence in the information society as well as their impact on communication systems, as well as individuals. Click here for the schedule of courses
	COM 645 - Strategic Messaging and Communication [3 credit(s)] The purpose of this course is to introduce students to theory and research in strategic messaging and communication. The focus is on persuasion, broadly defined, and the micro and macro aspects of the processes and effects of strategic communication on individuals and society. Click here for the schedule of courses
	COM 660 - Strategic Communication [3 credit(s)] Focuses on the Strategic Communication (planned response) processes often associated with Strategic Management. It is an in-depth and hands on approach to the mechanics, development and implementation of Public Relations Plans, which include elements of Public Relations, Organizational, Advertising and Marketing principles. Research processes will be implemented and used at several levels to identify issues and audiences as well as to design, manage and evaluate campaigns. Students will learn how to better work with such key publics as media, employees, community members and investors. Click here for the schedule of courses
	COM 670 - International Negotiation Strategy and Practices [3 credit(s)] Negotiations, both professional and personal, take place on many fronts. This course is designed to raise your negotiation competency by examining negotiation from an intercultural communication competency perspective. You will learn how to develop strategic goals for the international marketplace. This course will allow you to identify and address areas of strength and weakness in your negotiation style. Click here for the schedule of courses
	COM 689 - Collaborative Research Project [3 credit(s)] Prerequisite: Grade of “B” or higher in COM 531. Exit option for completion of the master’s program. Students work with faculty on a significant team project and are involved in conceptualization, project design, data collection, data analysis and evaluation, preparing and writing reports, and presentation of results to clients. The nature of the project selected is announced in advance. Graded S/F. Click here for the schedule of courses

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Course Descriptions

CHM 714 - Chromatography and Separation

CHM 715 - Advanced Mass Spectrometry

CHM 716 - Advanced Spectroscopic Methods

CHM 719 - Theory Of Analytical Chemistry

CHM 725 - Quantum Mechanics

CHM 730 - Special Topics In Organic Chemistry

CHM 731 - Organic Structure and Bonding

CHM 733 - Organic Reactions

CHM 740 - Special Topics In Inorganic Chemistry

CHM 741 - Inorganic Mechanisms and Structures

CHM 742 - Theoretical Inorganic Chemistry

CHM 750 - Special Topics In Clinical Chemistry

CHM 751 - Clinical Chemistry I

CHM 752 - Clinical Chemistry II

CHM 753 - Advanced Biochemistry I

CHM 754 - Advanced Biochemistry II

CHM 755 - Biotechnology Techniques I

CHM 756 - Internship In Clinical Chemistry I

CHM 757 - Internship In Clinical Chemistry II

CHM 759 - Clinical Chemistry Seminar

CHM 761 - Macromolecular Structure and Dynamics

CHM 779 - Advanced Chemistry Laboratory

CHM 790 - Annual Research Report

CHM 791 - Chemistry Internship

CHM 795 - Chemistry Seminar

CHM 891 - Candidacy Examination

CHM 899 - Ph.D. Dissertation

CVE 500 - Mathematical Methods In Engineering Mechanics

CVE 504 - Civil Engineering Systems Analysis

CVE 505 - Reliability

CVE 511 - Matrix Methods In Structural Analysis

CVE 512 - Finite Element Analysis I

CVE 513 - Advanced Strength Of Materials

CVE 521 - Behavior and Properties of Concrete

CVE 523 - Prestressed Concrete

CVE 524 - Nondestructive Evaluation

CVE 528 - Structural Wood Design

CVE 530 - Advanced Soil Mechanics

CVE 531 - Advanced Foundations

CVE 540 - Soil Stabilization and Decontamination

CVE 541 - Traffic Flow Theory

CVE 542 - Urban Transportation Planning

CVE 543 - Highway Safety

CVE 546 - Transportation Engineering

CVE 547 - Highway Engineering

CVE 561 - Hydrologic Analysis

CVE 562 - Open Channel Hydraulics

CVE 563 - Water Resources Engineering

CVE 564 - Groundwater Hydrology

CVE 565 - Hydrologic Modeling

CVE 593 - Special Topics In Civil Engineering

CVE 601 - Civil Engineering Graduate Sem

CVE 602 - Civil Engineering Internship

CVE 604 - Elasticity

CVE 609 - Energy Methods In Structural Mechanics

CVE 612 - Finite Element Analysis II

CVE 613 - Nonlinear Finite Element Analysis

CVE 614 - Elastic Instability

CVE 620 - Fracture Mechanics and Plasticity Theory

CVE 622 - Fatigue Analysis

CVE 625 - Viscoelasticity

CVE 665 - Hydrologic Modeling

CVE 693 - Special Problems In Civil Engineering

CVE 696 - Independent Study In Civil Engineering

CVE 697 - Master’s Research

CVE 699 - Thesis

CVE 701 - Civil Engineering Graduate Seminar

CVE 704 - Elasticity

CVE 709 - Energy Methods In Structural Mechanics

CVE 712 - Finite Element Analys II

CVE 713 - Nonlinear Finite Element Analysis

CVE 714 - Elastic Instability

CVE 720 - Fracture Mechanics and Plasticity Theory

CVE 722 - Fatigue Analysis

CVE 725 - Viscoelasticity

CVE 793 - Special Problems In Civil Engineering

CVE 897 - Doctoral Research

CVE 899 - Dissertation

COM 501 - Pro Seminar In Communication