The Martin Institute for Peace Studies and Conflict Resolution is a multidisciplinary center at the University of Idaho, founded in the belief that war and violence are neither necessary nor inevitable. Its purposes are to encourage education and research to advance peace at all levels and also to resolve local and regional conflicts with alternatives to confrontation and litigation. Institute scholars seek to understand the major causes of disputes and violence and to provide information, training, and assistance for the resolution of conflicts. The institute brings together scholars, students, and present and future leaders to develop the knowledge needed for the on-going and new challenges of establishing peace as a basis for long-range social and economic progress.
Mrtn 486 Public Involvement in Natural Resource Management (3 cr).
Mrtn 490 The Causes of War (3 cr).
Mrtn 496 International Organizations and International Law (3 cr).
Graduate training in mathematics prepares students for careers in teaching or research and development. Employment opportunities include universities, colleges, industries, and government agencies. The Ph.D. is generally required for teaching and research at the university level. The M.S. qualifies students to teach at junior colleges, some four year colleges, and for many positions in industry. The M.A.T. prepares students for secondary teaching and for some junior college positions. A baccalaureate degree in mathematics is generally required for admission to the graduate program; however, many students of science and technology can be admitted to the program with few undergraduate deficiencies.
Candidates must fulfill the requirements of the Graduate College and of the Department of Mathematics. See part 2 for the general requirements applicable to each degree.
Master of Science in Mathematics. General M.S. requirements apply. A prerequisite is the equivalent of an undergraduate major in mathematics. Of the minimum of 30 credits required for this degree, at least 24 must be in mathematics. A thesis is not required, but a comprehensive oral examination covering the course work (and possibly other fundamentals of mathematics) is required.
Master of Arts in Teaching. General M.A.T. requirements apply. Under advisement of the major professor and committee, a broadly based study plan is designed taking into consideration the candidate's interests and teaching needs. The plan should include mathematics courses from several pure mathematics areas, for example, algebra, topology, analysis, geometry, and number theory. A three-hour written examination is given over the courses in the study plan. Students entering the M.A.T. program will be considered deficient if they have not completed a standard sequence in calculus (equivalent to Math 180-190-200).
The M.A.T. degree in mathematics may also be obtained in part via distance learning. This distance learning program is designed to meet the needs of in-service teachers. The requirements outlined above apply, but here the study plan is designed using courses that are available by video or in summer programs on campus or at off-campus sites.
Doctor of Philosophy. The general requirements for the Ph.D. apply. In addition, the department requires the ability to translate into English from mathematical work in one of the languages: French, German, and Russian; a substitute language is sometimes allowed.
The preliminary examination must be taken after the language requirement and most of the study plan have been completed and before the dissertation is started. The preliminary examination is composed of three parts, each of which covers one of the areas: algebra, analysis, topology, combinatorics, and probability/mathematical statistics. At least two of these parts must be in the first three areas listed. These are given all in a one-week period and are graded by a departmental committee that may recommend additional testing in one or more of the specific areas if satisfactory results are not obtained. The committee may also recommend an oral examination in certain areas by the supervisory committee.
The dissertation must be of an original research nature and be in an area spanned by the research interests of the major professor. A final examination that amounts to a defense of the dissertation is required.
Math 310 Ordinary Differential Equations (3 cr).
Math H315 Topics in Pure Mathematics (3 cr).
Math 326 Linear Programming (3 cr).
Math 330 Linear Algebra (3 cr).
Math 346 Applied Combinatorics (3 cr).
Math 371 Mathematical Physics (3 cr).
Math 376 Discrete Mathematics II (3 cr).
Math 390 Geometry (3 cr).
Math 400 (s) Seminar (cr arr).
Math 404 (s) Special Topics (cr arr).
Math 405 Analysis of Algorithms (3 cr).
Math 411 Elementary Topology (3 cr).
Math 420 Complex Variables (3 cr).
Math 426 Discrete Optimization (3 cr).
Math 432 Numerical Linear Algebra (3 cr).
Math 433 Numerical Analysis (3 cr).
Math 435 (s) Topics in Applied Mathematics (3 cr).
Math 441 Problem Solving Through History (3 cr).
Math 442 Linear Algebra: Its Applications for Teachers (3 cr).
Math 443 Foundations of Calculus (3 cr).
Math 444 Problems in Geometry (3 cr).
Math 445 Groups and Symmetry (3 cr).
Math 446 Rings and Fields (3 cr).
Math 447 Linear Optimization (3 cr).
Math 449 (s) Special Topics (3 cr).
Math ID&WS451-ID&WS452 Probability Theory and Mathematical Statistics (3 cr).
Math 461-462 Abstract Algebra (3 cr).
Math 471-472 Advanced Calculus (3 cr).
Math 475 Analysis of Algorithms (3 cr).
Math 480 Partial Differential Equations (3 cr).
Math 485 Theory of Computation (3 cr).
Math 490 Introduction to Set Theory (3 cr).
Math 497 (s) Practicum in Tutoring (1 cr, max 2).
Math 499 (s) Directed Study (cr arr).
Math 500 Master's Research and Thesis (cr arr).
Math 501 (s) Seminar (cr arr). Prereq: perm.
Math 502 (s) Directed Study (cr arr). Prereq: perm.
Math 504 (s) Special Topics (cr arr). Prereq: perm.
Math 505 (s) Professional Development (cr arr). Cr earned in this course will not be accepted toward grad degree programs. Prereq: perm.
Math 510 Seminar on College Teaching of Mathematics (1 cr). Development of skills in the teaching of college mathematics; includes structure of class time, test construction, and various methods of teaching mathematics; supervision of instructional assistants in their beginning teaching assignments. Graded P/F. Prereq: perm.
Math ID&WS511-ID&WS512 Topology (3 cr). WSU Math 525-526. Alt/yrs. Basic concepts of point set and algebraic topology.
Math 521 (s) Seminar in Topology (1-3 cr, max arr). Current literature.
Math ID523-ID524 Algebraic Topology (3 cr). WSU Math 527-528. Alt/yrs. Basic homotopy theory, covering spaces, homology theory, and applications.
Math 526 (s) Topics in Topology (1-3 cr, max 12).
Math 528 Differentiable Manifolds (3 cr). Fundamentals of smooth manifolds, tangent spaces, vector fields, Lie groups, integration on manifolds, and applications. Prereq: Math 411 or 511, and 471.
Math ID&WS531 Complex Variables (3 cr). WSU Math 503. Alt/yrs. Theory of functions of a complex variable.
Math 535 Real Variables (3 cr). Alt/yrs. Measure and integration theory for functions of one or several variables.
Math 536 Probability Theory (3 cr). Alt/yrs. Random variables, characteristic functions, convergence theorems, central limit theorem, conditional probability, and stochastic processes as developed from a measure theoretic basis. Prereq: Math 535 or perm.
Math ID&WS539 Theory of Ordinary Differential Equations (3 cr). WSU Math 512. Alt/yrs. Existence, uniqueness, and stability of solutions of first-order systems; other topics.
Math ID&WS541A (s) Seminar in Analysis (1-3 cr, max arr). WSU Math 581. Current literature.
Math ID&WS-J544/ID&WS-J453 Stochastic Models (3 cr). Same as Stat J544/J453. WSU Stat 544. Alt/yrs. Markov chains, stochastic processes, and other stochastic models; applications. Additional projects/assignments reqd for grad cr. Prereq: Math 451 or perm.
Math ID550A Linear Algebra (3 cr). WSU Math 554. Alt/yrs. Vector spaces, direct sums, quotient spaces, similarity, Jordan forms, inner products, eigenvalues, eigenvectors, spectral theory.
Math WS550B Advanced Topics in Geometry (3 cr). WSU Math 550. Alt/yrs.
Math ID551 Ring Theory (3 cr). WSU Math 553. Alt/yrs. Ideals, quotient rings, modules, radicals, semisimple Artinian rings, Noetherian rings.
Math ID552 Galois Theory (3 cr). WSU Math 552. Alt/yrs. Field extensions, automorphisms, normality, splitting fields, radical extensions, finite fields, separability. (A knowledge of group theory is presumed.)
Math 553 Group Theory (3 cr). Alt/yrs. Permutation groups, isomorphisms, direct products, Sylow theory, normal series, abelian groups.
Math ID&WS561 (s) Seminar in Algebra (1-3 cr, max arr). WSU Math 582. Current literature.
Math ID&WS571A-ID&WS572 Functional Analysis (3 cr). WSU Math 504-506. Alt/yrs. Linear topological spaces and linear operators. Prereq: Math 536.
Math 581 (s) Seminar in Combinatorics (1-3 cr, max arr).
Math WS583 Seminar in Applied Mathematics (3 cr, max arr). WSU Math 583.
Math WS584 Seminar in Topology and Geometry (3 cr, max arr). WSU Math 584.
Math 585A-586A (s) Recent Developments in Mathematics (3 cr). For students with extensive background in specific areas of mathematics.
Math 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
Math 600 Doctoral Research and Dissertation (cr arr).
The programs of study are designed to extend the student's understanding of the fundamental engineering sciences and their application to engineering systems design and analysis. Research programs are offered with specialization in the following general areas: (1) thermodynamics, fluid dynamics, and heat transfer, (2) materials and applied mechanics, and (3) product and process design including control systems, automation, robotics, human factors, materials, and manufacturing.
Graduate students will develop a plan of study in consultation with their academic adviser that will provide for reasonable concentration in a particular field of interest and a selection of related courses, some of which may be taught outside of the department. The thesis topic will generally be selected from research topics being pursued by members of the departmental faculty.
Candidates must fulfill the requirements of the Graduate College and of the Department of Mechanical Engineering. Applicants for admission generally will have a B.S. degree in mechanical engineering. Those students admitted with degrees in other engineering fields will be expected to complete any undergraduate deficiencies. See part 2 for the general requirements applicable to each degree.
Master of Science. General M.S. requirements apply, along with departmental requirements as listed in the departmental graduate handbook.
Master of Engineering. General M.Engr. requirements apply, along with departmental requirements as listed in the departmental graduate handbook.
Doctor of Philosophy. General Ph.D. requirements apply, along with departmental requirements as listed in the departmental graduate handbook. Preliminary screening of candidates and program planning for those admitted are essential features of the Ph.D. program. Early in the program, the student must complete a qualifying examination, which will be oral and possibly written. The preliminary examination is taken after most of the course work is completed. This examination also includes a presentation of the dissertation progress or proposal. No foreign language is required; however, the department does require a satisfactory level of achievement in mathematics and numerical analyses and in computer programming.
Pre-advising is required for all mechanical engineering courses; consult the mechanical engineering adviser or departmental administrator.
ME 304 Materials Selection and Processing for Mechanical Design (3 cr).
ME ID&WS324 Dynamic Analysis in Machine Design (3 cr).
ME 330 Experimental Methods for Engineers (3 cr).
ME ID&WS340 Engineering Mechanics of Materials (3 cr).
ME 341 Intermediate Mechanics of Materials (3 cr).
ME ID&WS345 Heat Transfer (3 cr).
ME 391 Mechanical Engineering Seminar (1 cr).
ME 398-399 (s) Engineering Cooperative Internship I-II (cr arr).
ME 404 (s) Special Topics (cr arr).
ME 409 Human Factors in Engineering Design (3 cr).
ME 410 Production Engineering (3 cr).
ME 412 Gas Dynamics (3 cr).
ME 422 Applied Thermodynamics (3 cr).
ME 424 Mechanical Systems Design I (3 cr).
ME 425 Machine Component Design (3 cr).
ME 426 Mechanical Systems Design II (3 cr).
ME 427 Computer Aided Design (3 cr).
ME 430 Senior Lab (3 cr).
ME 431 Manufacturing Processes Lab (3 cr).
ME 433 Combustion Engine Systems (3 cr).
ME 435 Thermal Energy Systems Design (3 cr).
ME 443 (s) Analysis of Thermal Energy Systems (3 cr, max arr).
ME ID&WS444 Air Conditioning Engineering (3 cr).
ME 461 Fracture Mechanics (3 cr).
ME ID&WS472 Mechanical Vibrations (3 cr).
ME 473 Experimental Stress Analysis (3 cr).
ME ID&WS481 Control Systems (3 cr).
ME 499 (s) Directed Study (cr arr).
ME 500 Master's Research and Thesis (cr arr).
ME 502 (s) Directed Study (cr arr). Supervised study, including critical reading of current literature. Prereq: perm.
ME 503 (s) Workshop (cr arr). Prereq: perm.
ME 504 (s) Special Topics (cr arr). Prereq: perm.
ME 508 Mechanics of Plates and Shells (3 cr). Formulation of governing equations, assumptions, stress analysis, calculation of displacements, discussion of experimental analysis, buckling and vitration of plates and shells. Prereq: ME 341 or CE 342.
ME J513/J413 Acoustics (3 cr). Fundamentals of acoustics including wave theory; sound transmission, absorption, generation; acoustics of enclosed spaces, acoustic transducers, and underwater acoustics; acoustic design project reqd. Additional projects/assignments reqd for grad cr. Prereq: CE 320, ChE 321.
ME 515 Transport Phenomena (3-4 cr). See ChE 515.
ME WS516 Theoretical Acoustics (3 cr). WSU M E 548.
ME 519 Fluid Transients (3 cr). See CE 519.
ME J520/J420 Fluid Dynamics (3 cr). Same as CE J420/J520. Cr not granted for both ME 420 and ME 520. A second fluid dynamics course emphasizing theoretical perspective appropriate for either research or grad school preparation; topics include fluid properties, tensor analysis, kinematics, Navier-Stokes equation, energy equation, and vortex dynamics; study of current literature. Additional projects/assignments reqd for grad cr. Prereq: CE 320, Math 310, or perm.
ME R525 Advanced Heat Transfer (2-3 cr). See ChE 525.
ME ID&WS526 Statistical Thermodynamics (3 cr). WSU Ch E and M E 526. Probability theory and quantum mechanics, statistical mechanics, thermodynamic probability, molecular interpretation of first and second laws; kinetic theories. Prereq: ChE 321.
ME ID&WS527 Thermodynamics (3 cr). WSU M E 527. Thermodynamic laws for design and optimization of thermodynamic systems, equations of state, properties of ideal and real fluids and fluid mixtures, stability, phase equilibrium, chemical equilibrium, applications of thermodynamic principles. Prereq: ChE 321 or perm.
ME ID534 Mechanics of Composite Materials (3 cr). WSU M E 534. Analysis of micromechanical and macromechanical behavior of composite materials with emphasis on fiber-reinforced composite; prediction of properties; stiffness and strength theories; laminated beams and plates; dynamic behavior; environmental effects. Prereq: ME 341 or CE 342.
ME 535 Failure of Structural Materials (3 cr). See Met 535.
ME R537 Advanced Fluid Mechanics (2-3 cr). See ChE 537.
ME 539 Advanced Mechanics of Materials (3 cr). Same as CE 510. Limitations of results of elementary mechanics of materials, complex situations of loading and structural geometry, applications to design of machines and structure, introduction to elasticity. Prereq: ME 341 or CE 342.
ME 540 Continuum Mechanics (3 cr). Same as CE 540. Stress and deformation of continua using tensor analysis; relationship between stress, strain, and strain rates in fluids and solids; applications. Prereq: perm.
ME 541 Mechanical Engineering Analysis (3 cr). Mathematical modeling and solutions to mechanical engineering problems; analytical solutions to linear heat and mass diffusion, waves and vibrations; introduction to approximate techniques. Prereq: ME 345, ME 341 or equiv.
ME WS542 Optimal Control of Dynamic Systems (3 cr). WSU M E 542.
ME 545 Numerical Conduction Heat Transfer (3 cr). Steady-state and transient conduction and advection of heat; analytical and numerical methods including finite differences, finite elements, and boundary elements. Prereq: ME 345.
ME ID&WS546 Convective Heat Transfer (3 cr). WSU M E 515. Energy conservation equations; laminar and turbulent forced convective heat transfer; internal and external flow; free convection. Prereq: ME 345 or perm.
ME ID&WS547 Thermal Radiation Processes (2-3 cr). WSU M E 514. Thermal radiation; radiation interchange among surfaces; radiation in absorbing-emitting gases; combined modes of heat transfer. Prereq: ME 345 or perm.
ME 548 Elasticity (3 cr). Same as CE 548. Mathematical analysis of strain and stress, including vectors, tensors, and coordinate transformations; equations of elasticity; stress problems involving extension, torsion, and flexure; theories of failure. Prereq: ME 341 or CE 342.
ME 549 Finite Element Analysis (3 cr). See CE 546.
ME J551/J451 Experimental Methods in Fluid Dynamics and Heat Transfer (3 cr). Cr not granted for both ME 451 and ME 551. Theory and applications of transducers and instrumentation to measure velocity, temperature, and related quantities; flow visualization, pressure measurements, thermal anemometry, laser Doppler velocimetry, temperature and concentration measurement, and heat flux measurement. Additional projects/assignments reqd for grad cr. One 1-1/2 hr lec and one 3-hr lab a wk. Prereq: ME 330; coreq: Eng 317, ME 345, or perm.
ME WS556 Numerical Modeling in Fluid Mechanics (3 cr). WSU M E 556.
ME 557 Advanced Fluid Dynamics (3 cr). Potential flow and boundary layer theory, plus one or more advanced topics. Prereq: ME J420/J520 or 540 or perm.
ME ID&WS572 Advanced Mechanical Vibrations (3 cr). WSU M E 541. Free and forced vibration of strings, membranes and plates; response to random inputs; advanced topics in spectral analysis to include statistical properties, windowing, and the zoom transforms; analysis of nonlinear systems including linearization, local and global stability, perturbation methods, and numerical simulation; introduction to chaos theory. Prereq: ME 472.
ME WS574 Advances in Manufacturing Science (3 cr). WSU M E 574.
ME J576/J476 Automation, Robotics, and Computer Integrated Manufacturing (3 cr). Cr not granted for both ME 476 and ME 576. Comprehensive technical survey of important topics in production automation and related systems; flow line production, industrial robotics, material handling, group technology, flexible manufacturing systems, process control, and computer integrated manufacturing (CIM). Additional projects/assignments reqd for grad cr. Prereq: Math 310.
ME ID&WS581 Advanced Topics in Control Theory (3 cr). Discrete control systems, Kalman filters, fuzzy logic control systems, and other special topics with applications. Prereq: ME 581.
ME 585 Advanced Topics in Engineering Design (3 cr). Introduction to advanced methodologies for the design and manufacture of products; topics include robust design, conrecurrent engineering, design for manufacture and assembly, and expert systems. Prereq: ME 424, Stat 301, or grad standing and perm.
ME 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
ME 600 Doctoral Research and Dissertation (cr arr).
The following medical doctors serve as affiliate clinical professors (preceptors) of medical science: Malini Ariyawansa, Eugene M. Baldeck, Janice Boughton, Lennis Boyer, Patricia Brady, Harry Chinchinian, Steven J. Cox, E. Wayne Day, Stacey R. Dean, Richard B. Donati, Richard J. Eggleston, Richard A. Emtman, Stamey English, Timothy Flock, H. Graeme French, Alvin L. Frostad, Catherine M. Gorchels, John Grauke, Bruce L. Ham, Lawrence Hammond, John Harris, Cameron D. Hinman, Bonnie L. Houff, Martha K. Hunt, Jay A. Hunter, Thomas Jackson, Charles Jacobson, Marvin Kym, Wenzel A. Leff, Joyce Majure, Fredy E. Martinez, Barbara Martyn, Dan McIntosh, Marsha McKay, Carl M. Melina, Homa S. Memon, Margaret Miller, C. Michael Murphy, Steve Ozeran, Lloyd E. Perino, Dennis L. Peterson, Michael T. Rooney, Wayne Ruby, David Rych, Daniel Schmidt, David D. Shupe, Dennis Simpson, Francis K. Spain, David A. Spencer, David N. Spencer, John R. Stoianoff, Robert W. Tulin, Scott Tyler, Malcolm Winter.
Note: Ordinarily, only students enrolled at the University of Washington School of Medicine register to take medical science courses. Matriculated graduate and senior undergraduate students may register for credit in certain medical science courses under appropriate circumstances. In such cases, prior approval must be obtained from the faculty member chairing the course and the WAMI director. Permission to register will usually depend on the student also having approval from his or her academic adviser (senior undergraduate students must also obtain approval from the vice provost for research and graduate studies) and be limited to no more than two medical science courses a semester. MedSc 505 (Preceptorship) and MedSc 513, 522, and 535 (Introduction to Clinical Medicine I, III, and III) are closed to all but WAMI medical students.
MedSc 501 (s) Seminar (cr arr).
MedSc 502 (s) Directed Study (cr arr). Areas normally offered are directed dissection of the extremities, trunk, head, neck, abdomen, and pelvis; endocrinology, physiology, and other medically related studies.
MedSc 504 (s) Special Topics (cr arr).
MedSc 505 Preceptorship (cr arr). To provide opportunity for first-year medical students to gain personal experience with and insight into medical practice situations; the student will be stationed with physicians in their offices in accordance with the student's preference of discipline at the WAMI sites.
MedSc ID&WS510 Histology (3 cr). WSU Med S 510. Microscopy of cells; tissues and organs of the human body; emphasis on function. Three lec and one 3-hr lab a wk.
MedSc ID&WS511 Anatomy of the Trunk (5 cr). WSU Med S 511. Regional study of anatomy of human thorax, abdomen, pelvis, and perineum in correlationwith clinical cases. Two lec and one 3-hr lab a wk.
MedSc ID&WS512 Basic Mechanisms in Cellular Physiology (4 cr). WSU Med S 512. Basic physiological mechanisms, primarily at the cellular level.
MedSc ID&WS513 ntroduction to Clinical Medicine I (1 cr). WSU Med S 513. Communication skills and interview techniques to form the basis for the eventual doctor-patient relationship.
MedSc ID&WS514 Molecular and Cellular Biology I (3 cr). WSU Med S 514. Classical molecular and cellular biochemistry, cellular physiology, and molecular genetics.
MedSc ID&WS516 Systems of Human Behavior (2 cr). WSU Med S 516. Conceptual systems and models of behavior, normality and abnormality, environment and social learning, conditioning, learning in the autonomic nervous systems, catecholamines and behavior, illness behavior, feelings, emotion and cognition, physician-patient interaction, diseases and techniques of behavior change; human development from birth to senescence emphasizing disorders that occur during various life phases.
MedSc ID&WS520 Cell and Tissue Response to Injury (3 cr). WSU Med S 520. Cell and tissue injury, inflammation, and neoplasia.
MedSc ID&WS521 Natural History of Infectious Diseases and Chemotherapy (5 cr). WSU Med S 521. Pathogenesis, resistance, epidemiology, clinical manifestations and control of bacterial, fungal, parasitic, and viral infectious diseases, principles of chemotherapy and asepsis; sterilization; nosocomial and iatrogenic infections and prevention.
MedSc ID&WS522 Introduction to Clinical Medicine II (2 cr). WSU Med S 522. Continuation of communication skills especially as related to and dealing with effective material.
MedSc ID&WS523 Medical Immunology (2 cr). WSU Med S 523. Principles of immunology and their relationship to human medicine.
MedSc ID&WS524 Molecular and Cellular Biology II (2 cr). WSU Med S 524. Continuation of MedSc 514.
MedSc ID&WS526 Systems of Human Behavior (2 cr). WSU Med S 526. See MedSc ID&WS516 for description.
MedSc ID&WS530 Epidemiology (2 cr). WSU Med S 530. Introduction to biostatistical inference; interaction of agent, host, and environment in disease causation and transmission.
MedSc ID&WS531 Head, Neck, Ear, Nose, and Throat (5 cr). WSU Med S 531. Gross anatomy, including skull, pharynx, and larynx; audition and balance.
MedSc ID&WS532 Nervous System (5 cr). WSU Med S 532. Normal structure and function of the nervous system, including the eye.
MedSc ID&WS535 Introduction to Clinical Medicine III (2 cr). WSU Med S 535. Screening physical examination.
Metallurgy Faculty: Robert W. Bartlett, Sarit Bhaduri, Francis H. Froes, Batric Pesic, Keith A. Prisbrey, Patrick R. Taylor, T. Alan Place.
Mining Engineering Faculty: Robert Hautala, S. J. Jung, Martin L. Smith, Kenneth F. Sprenke, John R. Sturgul.
Candidates must fulfill the requirements of the Graduate College and of the Department of Metallurgical and Mining Engineering. See part 2 for the general requirements applicable to each degree.
Master of Science. General M.S. requirements apply. Majors are available in mining engineering and in metallurgical engineering. As a preparation for admission to either degree program the candidate should have the equivalent undergraduate degree or a B.S. degree in engineering with extra study in mining, metallurgy, and geology. Special programs can be developed from almost any basic degree in which deficiencies in the engineering and mining industry studies are removed by undergraduate or special studies. A thesis of 6 to 10 credits is required.
Master of Science. Major in metallurgy. The M.S. (metallurgy) is a thesis or nonthesis degree at the discretion of the student's adviser, offered both on the Moscow campus and at the UI/Idaho Falls Center for Higher Education.
Doctor of Philosophy. General Ph.D. requirements apply. Applicants are expected to have the same prerequisites as specified for the Master of Science degree. Whether knowledge or one or more foreign languages will be required will be decided by the candidate in consultation with his or her major professor and committee.
Met 308 Metallurgical Thermodynamics (3 cr).
Met 309 Metallurgical Transport Phenomena (3 cr).
Met 310 Metallurgical Reactor Design (3 cr).
Met 313 Physical Metallurgy I (4 cr).
Met 316 Physical Metallurgy II (3 cr).
Met ID341 Particulate Materials Processing (4 cr).
Met 344 Hydroprocessing of Materials (4 cr).
Met 400 (s) Seminar (cr arr).
Met 404 (s) Special Topics (cr arr).
Met 405 Design of Unit Operations and Flowsheets (3 cr).
Met 406 Treatment Technology for Recycled Waste (3 cr).
Met 407 Materials Fabrication (3 cr).
Met 412 Mechanical Metallurgy (3 cr).
Met 414 Process Design (3 cr).
Met ID415 Materials Selection and Design (3 cr).
Met 417 X-ray Diffraction (2-3 cr).
Met ID421 Light Metals (3 cr).
Met 424 Phase Transformations (3 cr).
Met ID429 Powder Metallurgy (3 cr).
Met 442 Pyroprocessing of Materials (4 cr).
Met 461 Metallurgical Control and Optimization (3 cr).
Met 480 Transmission Electron Microscopy of Materials (3 cr).
Met 499 (s) Directed Study (cr arr).
Met 500 Master's Research and Thesis (cr arr).
Met 501 (s) Seminar (cr arr). Prereq: perm.
Met 502 (s) Directed Study (cr arr). Prereq: perm.
Met 503 Advanced Extractive Metallurgy (3 cr). Topics in the extraction and refining of metals. Prereq: Met 442 or perm.
Met 504 (s) Special Topics (cr arr). Prereq: perm.
Met 505 Advanced Rate Phenomena in Metallurgical Engineering (3 cr). Principles of rate phenomena in metallurgical engineering. Prereq: perm.
Met 506 Advanced Ore Dressing (3 cr). Theories of comminution; flotation and related surface phenomena; electrical and magnetic concentration; process control. Prereq: Met 341 or perm.
Met 508 Control of Metallurgical Processes (3 cr). Control variables of metallurgical processes. Prereq: perm.
Met J509/J409 Solution Mining (3 cr). Same as Min J409/J509. Alt/yrs. Metal extraction from rubblized rock: chem, biol, transport, leaching kinetics, solution flow, aeration, rock permeability and alteration, leaching simulation, environmental containment, safety, metal recovery from solutions; well and reservoir technology; brine evaporation and extraction. Term paper or other additional assignments/projects reqd for grad cr. Prereq: Chem 111.
Met 511 Advanced Physical Metallurgy (3 cr). Alt/yrs. Theory of metals and alloys; application to problems of structure; properties of engineering metals. Prereq: perm.
Met 514 Phase Rule and Phase Relations (3 cr). Alt/yrs. Phase rule construction and interpretation of phase diagrams; metastable and unstable phaserelations. Prereq: perm.
Met 517 Kinetics of Metallurgical Reactions (3 cr). Alt/yrs. Application of absolute rate theory; time and temperature dependence; kinetics of gas-solid reactions; corrosion, diffusion, and recrystallization. Prereq: perm.
Met 518 Advanced Mechanical Metallurgy (3 cr). Alt/yrs. Micro- and macroscopic theories of deformation; materials-forming processes; mechanical tests. Prereq: perm.
Met J523/J423 High Temperature Corrosion (3 cr). Alt/yrs. Oxidation of metals, semiconductors and ceramics, protective oxide scales and coatings, defect structures and diffusion oxides, kinetics and thermal fatigue, transport properties. Additional projects/assignments reqd for grad cr. Prereq: perm.
Met J527/J427 Advanced Ceramics (3 cr). Crystallography, ceramic crystal structures, phase diagrams, phase transformation; mechanical properties, thermal properties, electrical properties, magnetic properties and optical properties. Additional projects/assignments reqd for grad cr. Prereq: perm.
Met 528 Advanced Engineering Ceramics (3 cr). Advanced materials: zirconia, alumina, silicon carbide, silicon nitride, glass ceramics, ceramic matrix composites, other miscellaneous non-oxides; advanced processing techniques: injection molding, combustion synthesis, hot isostatic pressing, superplastic forming, shock synthesis, plasma processing. Prereq: Met 527 or perm.
Met R533 Advanced X-ray Diffraction (3 cr). Principles and applications to advanced problems. Prereq: perm.
Met R534 Radiation Effects in Materials (3 cr). Interactions between radiation and solids. Prereq: perm.
Met R535 Failure of Structural Materials (3 cr). Same as ME 535. Mechanisms by which failure can occur in structural materials. Prereq: ME 261 or Met 201, ME 340.
Met R538 Corrosion in Metallurgy (3 cr). Corrosion by aqueous media, gases, liquid metals, and fused salts. Prereq: physical chemistry, including electrochemistry, or perm.
Met 597 (s) Practicum (cr arr). Prereq: perm.
Met 598 (s) Internship (cr arr). Prereq: perm.
Met 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
Min 304 Explosives (2 cr).
Min 350 Mineral Economics (3 cr).
Min 352 Project Investment Analysis and Management (3 cr).
Min 370 Mine Services (2 cr).
Min 372 Mine Ventilation (3 cr).
Min 380 Coal Mining Methods (2 cr).
Min 400 (s) Seminar (cr arr).
Min 401 Rock Mechanics (3 cr).
Min 402 Rock Mechanics Lab (2 cr).
Min 404 (s) Special Topics (cr arr).
Min 421 Engineering Geophysics (3 cr).
Min 422 Principles of General Geophysics (3 cr).
Min 425 Mineral Land Management (3 cr).
Min 428 Geostatistics (3 cr).
Min 450 Surface Mine Design (2 cr).
Min 451 Underground Mine Design (3 cr).
Min 452 Surface Mine Design Lab (1 cr).
Min 453 Mine Drainage and Pumping (2 cr).
Min 454 Advanced Geologic and Mine Modeling (3 cr).
Min 472 Mineral Industry Case Studies (3 cr).
Min 491 Pre-feasibility Study (2 cr).
Min 499 (s) Directed Study (cr arr).
Min 500 Master's Research and Thesis (cr arr).
Min 501 (s) Seminar (cr arr). Prereq: perm.
Min 502 (s) Directed Study (cr arr). Prereq: perm.
Min 503 Mine Stress Analysis (3 cr). Application of techniques in experimental stress analysis for structural design in all phases of the engineering system; photoelastic modeling and coating; strain gauge techniques; stress patterns in frameworks, rock masses, and foundations. One lec and two 3-hr labs a wk. Prereq: ME 340.
Min 504 Rock Mechanics II (3 cr). Same as GeolE 507. Theories of rupture of elastic and inelastic, brittle materials; mechanisms of fracture propagation and effects in engineering structures and rock fragmentation; effects of nuclear blasting, earthquakes and other dynamic stress waves. Prereq: Min 401 or perm.
Min 506 (s) Special Topics (cr arr). Prereq: perm.
Min J509/J409 Solution Mining (3 cr). See Met J409/J509.
Min J510/J410 Simulation of Engineering Systems (3 cr). Use of the GPSS simulation language for simulation of mine engineering systems; topics in inventory control, scheduling, and optimization; animation of simulation results. Additional projects/assignments reqd for grad cr. Prereq: Min 351 or perm.
Min 513 Advanced Mine Ventilation I (3-5 cr). Thermodynamic and motive column analyses of mine airflow. Students who have taken Min 372 register for 3 cr.
Min 520 Mining Geophysics (3 cr). Same as Geoph 521. Alt/yrs. Theory and application of magnetic, electric, electromagnetic, and radioactive methods of geophysical prospecting for metallic and nonmetallic mineral deposits. Two lec and one 3-hr lab a wk; one 3-day field trip. Prereq: perm.
Min 528 Advanced Geostatistics (3 cr). See GeolE 528.
Min 540 Mine Valuation (3 cr). Mine examination and valuation; sampling methods and calculations; determining present value of a deposit.
Min 560 Mine Management (3 cr). Financing, management labor relations, operations, and government regulations. Prereq: perm.
Min J561/J351 Optimization of Engineering Systems (3 cr). Applications of operations research theory and practice in the minerals industry; deterministic methods: linear, integer, and dynamic programming approaches to optimizing complex systems. Topics in stochastic processes and term project reqd for grad cr. Two lec and two hrs of lab a wk. Prereq: Math 190 or perm.
Min 570 Mine Systems Design (3-6 cr). Alt/yrs. Integration and synthesis of equipment, methods, and design; use of latest operation research tools to provide a complete mine plan of operation. Prereq: perm.
Min 597 (s) Practicum (cr arr). Prereq: perm.
Min 598 (s) Internship (cr arr). Prereq: perm.
Min 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MinMt 400 (s) Seminar (0 cr).
MinMt 600 Doctoral Research and Dissertation (cr arr). Prereq: enrollment in the composite doctoral program in mining engineering-metallurgy.
The Department of Microbiology, Molecular Biology and Biochemistry is a research and teaching unit within the College of Agriculture with extensive research expertise and instructional responsibilities in molecular biology, microbiology, and biochemistry. Scientists in the department are in the forefront of research with bacteria, fungi, and plants. The department has particular strengths in microbial physiology and ecology, developmental biology, membrane biochemistry, microbial pathogenesis and immunology, and plant molecular biology with a strong emphasis on the use of contemporary genetic engineering techniques.
Current research efforts designed to add to our scientific knowledge base include studies on the biochemistry and molecular biology of bacterial toxins including their effects on biomembranes, alteration of their immunological characteristics, and identification of active sites by site-directed mutagenesis; the isolation, characterization, and molecular cloning of unique enzymes capable of lignocellulose biodegradation from bacteria and fungi; the control of gene expression in a range of procaryotes and eucaryotes including light-dependent expression of developmental genes in plant mitochondria and photosynthetic bacteria, the developmental control of sporulation genes in fungi, and pathogenesis determinants in bacteria; and microbial ecology with special emphasis on bacterial composition and metabolite cycling in surface films and carbon cycling in soil.
In addition to these basic research interests, faculty are involved in applying new knowledge to applied problems in biotechnology. Much of this work is in association with the University of Idaho's Institute for Molecular and Agricultural Genetic Engineering (IMAGE), which coordinates biotechnological research between university departments and encourages joint endeavors between diverse disciplines. Specific projects include the development of improved vaccines, the survival of genetically engineering organisms in the environment, the detection and control of bacteria and fungi that are pathogenic for humans, animals, and plants, biological control of weeds and phytopathogens, bacterial bioremediation of hazardous waste sites, the bioprocessing of chemicals and minerals to increase their economic value, e.g., coal to render it a liquid and ores to remove precious metals, and the improvement of bacterial detection systems for increased food safety.
This combination of basic and applied research, funded at the multi-million dollar level, provides a stimulating environment where graduate students can gain extensive research experience in all aspects of modern microbiology, biochemistry, and molecular biology. Students can select from a broad range of courses presenting the latest information in all areas of biochemical and microbial sciences. All members of the departmental faculty are actively involved in research and teaching programs that provide students with a broad perspective of important problems in modern biology.
Prospective students may call or write to the department or individual faculty members for additional information concerning ongoing research activities and the availability of research assistantships.
In addition to the admission requirements of the Graduate College, prospective graduate students should have maintained an overall B average for all course work taken and have majored in an area of biological or chemical sciences. Results of the Graduate Record Examination (GRE) and three letters of recommendation are required. Students for whom English is a foreign language must have a TOEFL score of at least 550. Prior training should have included courses in general biology and chemistry, organic chemistry, biochemistry, calculus, physics, and introductory microbiology. Acceptance of students deficient in some of these areas will be considered on an individual basis. In such cases, it will be expected that the deficiencies will be removed early during the graduate program.
Candidates must fulfill the requirements of the Graduate College and the Department of Microbiology, Molecular Biology and Biochemistry. See part 2 for the general requirements applicable to each degree.
Master of Science. The M.S. degree may be earned in microbiology, molecular biology and biochemistry. An incoming student arranges a formal graduate program of at least 30 semester hours in consultation with his or her major professor and supervisory committee. As a part of the program the student is required to complete successfully at least four of the following courses: MMBB 541, 542, 560, 585, and 587. The student is also expected to include MMBB 501 (seminar) each semester. A master's candidate prepares a written thesis documenting completion of a laboratory research program. The thesis must be approved by the student's major professor and supervisory committee and be defended during an oral examination. Publication of data from the thesis in the peer-reviewed literature is expected.
Doctor of Philosophy. The Ph.D. degree may be earned in microbiology, molecular biology and biochemistry. A doctoral student develops a graduate program of at least 78 semester hours in consultation with his or her major professor and supervisory committee. As a part of the program the student is required to complete successfully the following courses: MMBB 541, 542, 560, 585, and 587. The student is also expected to include MMBB 501 (seminar) each semester, with active participation in the form of one or more seminar presentations during the course of his or her graduate career. Teaching experience is required and is obtained through participation in the department's teaching programs. Students must pass a written qualifying examination after completing two semesters in the Ph.D. program to assess general knowledge in their discipline. A preliminary examination, usually oral, is required prior to admission to final candidacy for the degree. All candidates prepare a formal dissertation reflecting original thought and independent laboratory investigation and defend it during an oral presentation as a final step toward their degree. Publication of data from the dissertation in the peer-reviewed, scientific literature is expected.
MMBB ID380 Introductory Biochemistry (3 cr).
MMBB ID382 Introductory Biochemistry Lab (1 cr).
MMBB 389 (s) Internship (1-6 cr, max 6).
MMBB 400 (s) Seminar (cr arr).
MMBB 401 Undergraduate Research (1-2 cr, max 4).
MMBB 404 (s) Special Topics (cr arr).
MMBB 406 (s) Study Abroad (cr arr).
MMBB 409 Immunology (3 cr).
MMBB 410 mmunology Laboratory (2 cr).
MMBB 412 Pathogenic Microbiology (3 cr).
MMBB 413 Pathogenic Microbiology Laboratory (2 cr).
MMBB WS414 General Virology (3 cr).
MMBB WS415 General Virology Laboratory (2 cr).
MMBB ID416 Food Microbiology (4 cr).
MMBB ID417 Food Microbiology Laboratory (2 cr).
MMBB WS420 Epidemiology (3 cr).
MMBB 431 Recombinant DNA Laboratory (2 cr).
MMBB 450 Molecular Biology of Microbial Diversity (3 cr).
MMBB 460 Microbial Physiology (5 cr).
MMBB 480 Biochemistry and Molecular Biology (3 cr).
MMBB 481 Virology (3 cr).
MMBB 486 Plant Biochemistry (3 cr).
MMBB 488 Genetic Engineering (3 cr).
MMBB 498 (s) Practicum in Tutoring (1 cr, max 2).
MMBB 499 (s) Directed Study (cr arr).
MMBB 500 Master's Research and Thesis (cr arr).
MMBB 501 (s) Seminar (1 cr, max 6). A maximum of 2 cr may be counted toward an M.S. degree and a maximum of 4 cr toward a Ph.D. Graded P/F. Prereq: perm.
MMBB 502 (s) Directed Study (cr arr). Areas normally offered are: molecular biology, microbiology and biochemistry. Prereq: perm.
MMBB 504 (s) Special Topics (cr arr).
MMBB 506 (s) Study Abroad (cr arr). Prereq: perm of dept.
MMBB WS512 Immunology (3 cr). WSU Micro 512.
MMBB J525/J425 Microbial Ecology (4 cr). Same as Soils J425/J525. Biogeochemical activities and relationships of microorganisms in soil, water, plants, and animals. Students registering for MMBB 525 are required to complete an additional research paper. Two lec and two 3-hr labs a wk; one 2-day field trip. Prereq: MMBB 250, Math 111 or perm.
MMBB WS529 Molecular Techniques in Microbiology (3 cr). WSU Micro 529.
MMBB ID537 Soil Biochemistry (3 cr). WSU Soils 537. See Soils 537.
MMBB ID541-ID542 Biochemistry (3 cr). Same as Chem 541-542. WSU BC/BP 563-564. Max 7 cr in any combination of MMBB 380, 480, 541, and 542. Intermediate biochemistry; intro to metabolism and the chemical and physical properties of biomolecules. Prereq: Chem 372; coreq: Chem 302 or 306 or perm.
MMBB 560 Advanced Microbial Physiology (3 cr). Use of current literature to study recent advances in research on the physiology of microorganisms. Prereq: MMBB 460 or perm.
MMBB 562 Advanced Pathogenic Mechanisms (3 cr). Detailed analysis of microbial virulence factors and host factors involved in infections and infectious disease. Prereq: perm.
MMBB 564 Developmental Genetics (1-4 cr, max 8). Molecular basis of cell differentiation and morphogenesis of three-dimensional structures in bacteria, fungi, plants, and animals. Prereq: MMBB 585 and 587 or perm.
MMBB WS565-WS566 Molecular Biology I-II (3 cr). WSU BC/BP and GenCB 565-566.
MMBB 567 Signal Transduction (3 cr). Molecular biology of organismal sensing and response to environmental signals. Prereq: MMBB 585, 587.
MMBB ID568 Microbial Transformation (3 cr). Use of microbes in the biodegradation of wastes and bioprocessing to produce valuable chemical stocks. Prereq: MMBB 380, 460.
MMBB J569/J469 Techniques in Microbial Genetics (3 cr). Intensive laboratory course employing the basic methods of prokaryotic and bacteriophage genetics. Additional laboratory and library work reqd for grad cr. Prereq: perm.
MMBB WS578 Molecular Biology Computer Techniques (4 cr). WSU BC/BP 578.
MMBB 582 Proteins and Enzymes (3 cr). Alt/yrs. Same as Chem 582. Protein structure and function; mechanisms of enzyme action. Prereq: MMBB 541.
MMBB ID583 Lipids and Membranes (3 cr). WSU Micro 538. Alt/yrs. Same as Chem 583. Biosynthesis and metabolism of major classes of complex lipids and sterols; structure, function, and properties of biomembranes and membrane models. Prereq: MMBB 542.
MMBB 585 Prokaryotic Molecular Genetics (3 cr). Same as Genet 585. Molecular basis of genetics in prokaryotes; mechanisms of RNA, DNA, and protein synthesis, gene regulation, and the shaping of the bacterial cell. Prereq: Biol 351, MMBB 380.
MMBB 587 Eukaryotic Molecular Genetics (3 cr). Molecular basis of genetics of eukaryotes. Prereq: MMBB 541 and MMBB 585 or Biol 351, MMBB 480 and 488.
MMBB 589 Advanced Topics in Molecular Biology, Microbiology and Biochemistry (1-9 cr, max 9). Same as Chem 589. Recent research in enzymes, hormones, complex lipids, vitamins, nucleic acids, antibiotics, viruses, and MMBB genetics. Prereq: perm.
MMBB 597 (s) Practicum (cr arr). Prereq: perm.
MMBB 598 (s) Internship (cr arr). Prereq: perm.
MMBB 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MMBB 600 Doctoral Research and Dissertation (cr arr).
The Lionel Hampton School of Music is an accredited institutional member of the National Association of Schools of Music. The Master of Music degree is offered with concentrations in music education, performance, composition, accompanying, and piano pedagogy and performance studies. The Master of Arts degree is offered in music history.
The school offers prospective graduate students a wide range of individual and group instruction opportunities as preparation for professional careers in music either as performers, composers, scholars, or music educators. Study is enriched through participation in recitals in addition to participation in both small and large vocal and instrumental ensembles.
Admission to the M.A. or M.Mus. program in this school normally requires a baccalaureate degree in music from an accredited institution. Each student must take diagnostic placement examinations in music history and theory at the time of first registration as a graduate student. Those interested in pursuing the degree pattern in music education must also take an exam in music education. At the time the student is admitted to the school, a supervisory committee and a chair of that committee will be appointed.
While the primary emphasis of graduate work is concerned with subject matter areas, the importance of performance is not neglected. Students are encouraged, and in some cases required, to participate in one organized ensemble each academic session in residence.
Candidates must fulfill the requirements of the Graduate College and of the School of Music. See part 2 for the general requirements applicable to each degree.
Master of Arts. General M.A. requirements apply. Applicants for the M.A. degree may concentrate in music history. A reading competency in one foreign language is required. Admission to the program is by permission of the music history faculty.
Master of Music. Applicants for the M.Mus. degree may concentrate in music education; performance (with degree patterns in keyboard, woodwinds, brass, percussion, strings, and voice); composition; piano pedagogy and performance studies; or accompanying. Admission to the M.Mus. program is by audition, interview, and/or submission of scores and tapes depending on the concentration selected. At least 18 semester hours of credit applicable toward the M.Mus. degree must be earned in residence on the Moscow campus.
MusA 314 (s) Individual Instruction (1 cr, max arr).
MusA 324 (s) Individual Instruction (2 cr, max arr).
MusA 334 (s) Individual Instruction (3 cr, max arr).
MusA 349-350 Voice for Actors (1 cr, max arr).
MusA 387 Conducting I (2 cr).
MusA 400 (s) Seminar (cr arr).
MusA 403 (s) Workshop (cr arr).
MusA 404 (s) Special Topics (cr arr).
MusA 487 Conducting II (2 cr).
MusA 490 Recital (0 cr).
MusA 491 Recital (0 cr).
MusA 499 (s) Directed Study (cr arr).
MusA 500 Master's Research and Thesis (cr arr).
MusA 501 (s) Seminar (cr arr). Prereq: perm.
MusA 502 (s) Directed Study (cr arr). Prereq: perm.
MusA 503 (s) Workshop (cr arr). Prereq: perm.
MusA 504 (s) Special Topics (cr arr).
MusA 514 (s) Individual Instruction (1 cr, max arr). For secondary or minor instrument, nonmajors, and undeclared majors; may not be taken for audit. One-half hour of private instruction a wk. Instruction offered in piano, organ, harpsichord, voice, flute, oboe, clarinet, saxophone, bassoon, trumpet, horn, euphonium, trombone, tuba, percussion, violin, viola, cello, contrabass, or guitar. Prereq: audition by committee.
MusA J515/J315 Accompanying (1 cr, max arr). Principles of accompanying with use of keyboard instruments; lab assignments under supervision. Two lec-labs a wk. Prereq: audition and completion of semester of MusA 124 or 134.
MusA J516/J316 Concert Choir--Vandaleers (1 cr, max arr). Open to all students. Four rehearsals a wk; field trips. Prereq: audition and perm.
MusA J517/J317 (s) University Choir (1 cr, max arr). Open to all students. One 2-1/2 hr night rehearsal a wk. Prereq: perm.
MusA J518/J318 (s) Jazz Choir (1 cr, max arr). Open to all students. Three rehearsals a wk. Prereq: perm.
MusA J519/J319 (s) Marching Band (1-3 cr, max arr). Open to all students. Performance at home football games and other events and travel to selected away football games; field trips. Prereq: perm.
MusA J520/J320 (s) Wind Ensemble (1 cr, max arr). Open to all students. Four rehearsals a wk. Prereq: audition and perm.
MusA J521/J321 (s) Concert Band (1 cr, max arr). Open to all students. Three rehearsals a wk. Prereq: perm.
MusA J522/J322 (s) Orchestra (1 cr, max arr). Open to all students. Four rehearsals a wk. Prereq: audition and perm.
MusA J523/J323 (s) Jazz Ensemble (1 cr, max arr). Open to all students. Three rehearsals a wk. Prereq: audition and perm.
MusA 524 (s) Individual Instruction (2-3 cr, max arr). For music majors in music degree programs other than performance; may not be taken for audit. One hour of private instruction a wk plus convocation/area recital/studio class; final exam conducted by jury. See MusA 514 for instruction areas. Prereq: placement audition by committee.
MusA 534 (s) Individual Instruction (3-6 cr, max arr). For students in the M.Mus. performance degree; may not be taken for audit. One hour of private instruction a wk plus convocation/area recital/studio class; final exam conducted by jury. See MusA 514 for instruction areas. Prereq: placement audition by committee.
MusA J554/J454 Performance Practices (2 cr). Performance practices of music from Renaissance to present. Prereq: MusH 321-322 and upper-division standing (see "Curricular Requirements" in General Catalog) or graduate status or perm.
MusA J555/J455 Keyboard Performance Practices (1 cr). Study of interpretation of keyboard music from Baroque through 20th century; learn to interpret scores, teach, and perform keyboard music stylistically; acquire knowledge of major performing artists and recordings from each period of music. Registration for graduate credit requires additional research into original treatises from each period of music, resulting in the editing of a piece of music from each of these periods. Coreq: MusA J454/J554.
MusA J565/J365 (s) Chamber Ensemble (1 cr, max arr). Open to all students. Performance opportunities in chamber ensembles: string, brass, woodwind, percussion, keyboard, vocal, and mixed. Prereq: audition and perm.
MusA J580/J380 (s) Opera Workshop (1-3 cr, max arr). Analysis, rehearsal, and performance of operatic literature. Prereq: audition and perm.
MusA 590 (s) Master's Recital (0 cr). For students whose emphasis is other than performance. May be repeated. Graded P/F. Prereq: audition and perm of committee; coreq: MusA 524.
MusA 591 (s) Master's Recital (0 cr). For students whose emphasis is in performance. May be repeated. Graded P/F. Prereq: audition and perm of committee; coreq: MusA 534.
MusA 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MusC 325 Composition (2 cr, max arr).
MusC 327 Orchestration (3 cr).
MusC 329 Theoretical Basis of Jazz (2 cr).
MusC 331 Counterpoint (3 cr).
MusC 400 (s) Seminar (cr arr).
MusC 403 (s) Workshop (cr arr).
MusC 404 (s) Special Topics (cr arr).
MusC 425 Advanced Composition (2 cr, max arr).
MusC 426 Electronic Music (2 cr).
MusC 428 Choral Arranging (2 cr).
MusC 442 Musical Analysis (2 cr).
MusC 461 Band Arranging (2-4 cr, max 4).
MusC 490 Senior Recital (0 cr).
MusC 499 (s) Directed Study (cr arr).
MusC 500 Master's Research and Thesis (cr arr).
MusC 501 (s) Seminar (cr arr). Prereq: perm.
MusC 502 (s) Directed Study (cr arr). Prereq: perm.
MusC 503 (s) Workshop (cr arr). Prereq: perm.
MusC 504 (s) Special Topics (cr arr). Prereq: perm.
MusC 507 Individual Instruction Composition (cr arr). Prereq: MusC 525 or perm.
MusC 521 Musical Analysis (3 cr). Analysis of selected musical compositions. Prereq: perm.
MusC 525 Composition (2 cr, max arr). Creative writing.
MusC 527 Advanced Orchestration (2 cr, max arr). Orchestral scoring; recent trends. Prereq: MusC 327 or perm.
MusC J532/J432 Advanced Counterpoint (2 cr). Advanced countrapuntal writing, including canon and fugue. Additional projects/assignments reqd for grad cr. Prereq: MusC 331.
MusC 590 (s) Master's Recital (0 cr). For students whose degree requires a composition recital as part of the degree requirements. Graded P/F. Prereq: audition and perm of committee; coreq: MusC 507 or 525.
MusC 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MusH 321 Music in Western Civilization I (3 cr).
MusH 322 Music in Western Civilization II (3 cr).
MusH 323 Music in Western Civilization III (3 cr).
MusH 400 (s) Seminar (cr arr).
MusH 403 (s) Workshop (cr arr).
MusH 404 (s) Special Topics (cr arr).
MusH 499 (s) Directed Study (cr arr).
MusH 500 Master's Research and Thesis (cr arr).
MusH 501 (s) Seminar (cr arr). Prereq: perm.
MusH 502 (s) Directed Study (cr arr). Prereq: perm.
MusH 503 (s) Workshop (cr arr). Prereq: perm.
MusH 504 (s) Special Topics (cr arr). Prereq: perm.
MusH J510/J410 (s) Studies in Jazz History (3 cr). Alt/yrs. Selected topics in jazz. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J516/J416 (s) Studies in Renaissance Music (3 cr). Alt/yrs. Selected topics in Renaissance music. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J517/J417 (s) Studies in Baroque Music (3 cr). Alt/yrs. Selected topics in Baroque music. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J518/J418 (s) Studies in Classic/Romantic Music (3 cr). Alt/yrs. Selected topics in Classic/Romantic music. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J519/J419 (s) Studies in 20th-Century Music (3 cr). Alt/yrs. Selected topics in 20th-century music. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J540/J440 (s) Studies in American Music (3 cr). Alt/yrs. Selected topics in American music. Additional projects/assignments reqd for grad cr. Prereq: MusH 321-323 or perm.
MusH J551/J451 (s) Repertoire (2 cr, max arr). May be repeated for cr as content changes. Historical and analytical survey of literature available in all performing media. Additional projects/assignments reqd for grad cr. Prereq: jr standing and perm.
MusH J559/J459 (s) Studies in Opera Literature (3 cr). Alt/yrs. Open to all students. Selected masterworks of opera literature. Additional projects/assignments reqd for grad cr. Prereq: perm.
MusH 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MusT 351 Advanced String Techniques (1 cr).
MusT 352 Double Reed Techniques (1 cr).
MusT 353 Advanced Brass Techniques (1 cr).
MusT 354 Flute and Saxophone Techniques (1 cr).
MusT 381 Elementary School Music Methods I (3 cr).
MusT 383 Principles of Music Teaching (3 cr).
MusT 385 Choral Music in the Secondary School (2 cr).
MusT 386 Instrumental Music in the Secondary School (2 cr).
MusT 389 Orff and Kodaly (2 cr).
MusT 400 (s) Seminar (cr arr).
MusT 403 (s) Workshop (cr arr).
MusT 404 (s) Special Topics (cr arr).
MusT 432 (s) Practicum: Music Teaching (7 or 14 cr).
MusT 438 (s) Practicum (cr arr).
MusT 445 Proseminar in Music Teaching (2 cr).
MusT 465 Jazz Band Rehearsal Techniques (1 cr).
MusT 466 Marching Band Techniques (1 cr).
MusT 467 Instrumental Literature for Public Schools (1 cr).
MusT 468 Literature for Vocal Ensembles (2 cr).
MusT 485 Choral Ensemble Rehearsal Techniques (1 cr, max arr).
MusT 486 Instrumental Ensemble Rehearsal Techniques (1 cr, max arr).
MusT 499 (s) Directed Study (cr arr).
MusT 500 Master's Research and Thesis (cr arr).
MusT 501 (s) Seminar (cr arr). Prereq: perm.
MusT 502 (s) Directed Study (cr arr). Prereq: perm.
MusT 503 (s) Workshop (cr arr). Prereq: perm.
MusT 504 (s) Special Topics (cr arr). Prereq: perm.
MusT 505 Curriculum Development (3 cr). Scope and sequence of musical experience in public schools through curriculum development.
MusT 506 Teaching Systems (3 cr). For experienced teachers. Survey of Orff, Kodaly, Gordon, and Manhattanville and their relationship to teaching music at all levels. Prereq: one yr teaching experience or perm.
MusT 507 Evaluation in Music (3 cr). Study and development of evaluation instruments for use in teaching music.
MusT J535/J435 (s) Pedagogy and Materials (2 cr, max arr). Methods and materials of performance techniques for each performance field. Additional projects/assignments reqd for grad cr. Prereq: jr standing and perm.
MusT 538 (s) Practicum (cr arr). Studio and classroom teaching of secondary music majors, minors, or electives. Prereq: perm.
MusT 562 Choral Literature and Techniques (2 cr). Prereq: MusT 385, MusA 387, or perm.
MusT 581 (s) College Music Teaching (1 cr, max 3). Contemporary teaching techniques in one or more of the following fields: theory, music literature, music education, piano, voice, woodwinds, strings, brass, and percussion. Prereq: perm.
MusT 583 School Music Administration (2 cr). Principles underlying sound policies in the supervision and administration of school music. Prereq: one yr of teaching experience or perm.
MusT 597 (s) Practicum (cr arr). Prereq: perm.
MusT 598 (s) Internship (cr arr). Prereq: perm.
MusT 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.
MusX 400 (s) Seminar (cr arr).
MusX 403 (s) Workshop (cr arr).
MusX 404 (s) Special Topics (cr arr).
MusX 406 (s) Study Abroad (cr arr).
MusX 498 (s) Internship (1-3 cr).
MusX 499 (s) Directed Study (cr arr).
MusX 500 Master's Research andThesis (cr arr).
MusX 501 (s) Seminar (cr arr). Prereq: perm.
MusX 502 (s) Directed Study (cr arr). Prereq: perm.
MusX 503 (s) Workshop (cr arr). Prereq: perm.
MusX 504 (s) Special Topics (cr arr). Prereq: perm.
MusX 511 Bibliography and Research (3 cr). Orientation to grad study; bibliography and research procedures.
MusX 599 (s) Research (cr arr). Research not directly related to a thesis or dissertation. Prereq: perm.