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Marine Sciences |
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SMS 585 - Marine System Modeling Covers ocean circulation models, coupled atmosphere-ocean models, sea ice models, modeling oceanic carbon and nutrient cycles, and marine ecosystem models: beginning with theory, followed by model development and the most recent research results. Examines model representation of interactions among physical, chemical and biological processes in the ocean. Term project required.
Prerequisites & Notes permission of instructor.
Credits: 3 |
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SMS 591 - Dynamical Oceanography I Covers physical principals fundamental to the study of the oceans; the equations of motion for rotating fluids; circulation theorem and conservation of potential vorticity; scale analysis, boundary conditions; surface gravity waves; rotation effects in homogeneous oceans.
Prerequisites & Notes SMS 541 or equivalent.
Credits: 3 |
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SMS 595 - Data Analysis Methods in Marine Sciences Provides theoretical and computational guidance on techniques commonly used in
data analysis. The first half of the course will cover regression methods and
the second half will cover time series analysis and digital filters. Real data
will be used to illustrate the practical aspects of the subject with emphasis
on developing a hands-on understanding of the methods and correct interpretation
of results.
Prerequisites & Notes MAT 126 or equivalent.
Credits: 3 |
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SMS 597 - Independent Study A graduate-level readings course, lecture course, laboratory or seminar study course arranged between instructor and individual graduate students, covering selected topics or areas within the field of Marine Science. May be repeated for credit.
Prerequisites & Notes permission of instructor.
Credits: 1-3 |
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SMS 598 - Special Topics in Marine Science A graduate-level readings, lecture, seminar or laboratory course covering timely topics in Marine Science. May be repeated for credit.
Prerequisites & Notes permission of instructor.
Credits: 1-3 |
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SMS 618 - Particle Dynamics in Aquatic Systems Examines the physical, chemical and biological genesis of particle matter in the ocean and large lake systems, the important role of particle matter in the majority of aquatic biogeochemical processes and the geological significance of particle flux in marine and lacustrine environments.
Prerequisites & Notes SMS 501, SMS 520.
Credits: 3 |
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SMS 683 - Internship in Marine Policy Professional experience with a marine resource management organization. Students must submit a plan approved by the graduate coordinator of the Marine Policy Program and the sponsoring organization. Reports and readings will be required.
Prerequisites & Notes permission.
Credits: 1-6 |
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SMS 691 - Marine Science Seminar Student seminars on their own research or current topics in marine science.
Credits: 1 |
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SMS 692 - Problems in Marine Science I Directed studies of current problems in marine science.
Prerequisites & Notes permission.
Credits: Ar |
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SMS 693 - Problems in Marine Science II Directed studies of current problems in marine science.
Prerequisites & Notes permission.
Credits: Ar |
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SMS 699 - Graduate Thesis Graduate Thesis.
Credits: Ar |
Master’s Comprehensives |
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GRR 699 - Reading for Master’s Comprehensives For master’s-level students who have completed all other degree requirements.
Credits: 1-3 |
Mathematics and Statistics |
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MAT 400 - Topics in Mathematics Topics in mathematics not regularly covered in other courses. Content varies to suit current needs. May be repeated for credit.
Prerequisites & Notes departmental permission.
Credits: 1-3 |
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MAT 425 - Introduction to Real Analysis I A study of functions of a real variable and the related topology of the real line. Concepts of limit, convergence, continuity and differentiability are studied.
Prerequisites & Notes A grade of C or better in MAT 228 and MAT 261.
Credits: 3 |
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MAT 426 - Introduction to Real Analysis II A continuation of MAT 425 emphasizing integration and sequences and series of functions. Contents may vary from year to year.
Prerequisites & Notes MAT 425.
Credits: 3 |
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MAT 434 - Introduction to Statistics Topics include probability, random variables, continuous and discrete distributions, point and interval estimation, tests of hypotheses, linear regression and correlation, analysis of variance.
Prerequisites & Notes A grade of C or better in MAT 228.
Credits: 4 |
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MAT 435 - Introduction to Mathematical Statistics Topics include moment generating functions, distribution of functions of random variables, sampling distributions, principles of estimation and hypothesis testing, limit theorems and order statistics.
Prerequisites & Notes A grade of C or better in MAT 434.
Credits: 3 |
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MAT 436 - Nonparametric Statistics Surveys nonparametric alternatives to standard parametric techniques. Emphasis on situations in which the use of a parametric technique is incorrect or, at best, marginal.
Prerequisites & Notes A grade of C or better in MAT 434 or MAT 437.
Credits: 3 |
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MAT 437 - Statistical Methods in Research An introduction to analysis of variance and regression analysis using a unifying approach to theory; application and illustrations from many fields.
Prerequisites & Notes A grade of C or better in MAT 232 or MAT 434 or permission.
Credits: 3 |
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MAT 445 - History of Mathematics Deals with the lives and times of mathematicians, while focusing on mathematical ideas. Designed to acquaint the student with the evolution of various mathematical disciplines and to develop an appreciation of the problems faced by and often solved by mathematicians.
Prerequisites & Notes A grade of C or better in MAT 127 or permission.
Credits: 3 |
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MAT 451 - Differential Equations and Dynamical Systems A study of the nature and behavior of solutions of linear and nonlinear systems of differential and difference equations through mathematical analysis and the use of available menu-driven PC software. For students in mathematics and the sciences. Some knowledge of vectors and matrices and some familiarity with personal computers is recommended.
Prerequisites & Notes A grade of C or better in MAT 259 or MAT 453 or permission.
Credits: 3 |
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MAT 452 - Complex Analysis An introduction to functions of complex variables including differentiation, integration, series, mappings and applications.
Prerequisites & Notes A grade of C or better in MAT 228.
Credits: 3 |
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MAT 453 - Partial Differential Equations I Introduction to general properties of partial differential equations followed by solutions of specific equations. Techniques include eigen function expansions, operational methods, and Green’s functions.
Prerequisites & Notes A grade of C or better in MAT 259 or permission.
Credits: 3 |
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MAT 454 - Partial Differential Equations II A continuation of MAT 453.
Prerequisites & Notes A grade of C or better in MAT 453.
Credits: 3 |
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MAT 463 - Introduction to Abstract Algebra I A study of algebraic systems composed of non-empty sets with binary operations defined on them, and characterized by specific axiom systems. Begins with a study of set theory, functions, and operations, and continues with topics selected from group theory and abstract linear algebra.
Prerequisites & Notes A grade of C or better in MAT 261 and MAT 262.
Credits: 3 |
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MAT 464 - Introduction to Abstract Algebra II A continuation of MAT 463, with emphasis on properties of rings and fields.
Prerequisites & Notes A grade of C or better in MAT 463.
Credits: 3 |
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MAT 465 - Theory of Numbers Elementary properties of integers including divisibility, prime and composite numbers, uniqueness of prime factorization, Diophantine equations, congruences and continued fractions.
Prerequisites & Notes A grade of “C” or better in MAT 261 or permission.
Credits: 3 |
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MAT 471 - Differential Geometry The application of multivariable calculus to the study of curves, surfaces and their higher-dimensional analogues.
Prerequisites & Notes A grade of C or better in MAT 228. Some knowledge of linear algebra is helpful.
Credits: 3 |
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MAT 475 - Higher Geometry Topics include: constructions, Euclidean properties, Ceva’s and Menelaus’ theorems with applications–Desargues’, Pappus’ and Pascal’s theorems, isometries, axiometric approach to one of the geometries, algebraic models for geometry, Klein’s Erlanger program, classical construction problems.
Prerequisites & Notes A grade of C or better in MAT 228 or permission.
Credits: 3 |
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MAT 481 - Discrete Mathematics Primarily designed for both mathematics and computer science majors. While the calculus-based mathematics of classical engineering and physical science is essentially “continuous,” the finite mathematics of computer science and some social sciences is essentially “discrete” or “combinatorial.” MAT 481 is an introductory course offered in this spirit. Topics covered typically include graphs and networks, analysis of algorithms, generating functions and recurrence relations, graph coloring, satisfiability, computational complexity, automata and languages, Turing machines and computability, and a brief introduction to the theory of NP-completeness.
Prerequisites & Notes A grade of C or better in MAT 261 or MAT 262 or permission.
Credits: 3 |
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MAT 487 - Numerical Analysis An introduction to computational methods for solving numerical problems. Topics such as interpolation, systems of linear or nonlinear equations, numerical integration, eigenvalues, optimization, ordinary and partial differential equations are considered.
Prerequisites & Notes A grade of C or better in COS 220 and MAT 228 or permission.
Credits: 3 |
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MAT 500 - Topics in Graduate Mathematics Topics in mathematics not regularly covered in other courses. Content varies to suit current needs. May be repeated for credit.
Prerequisites & Notes departmental permission.
Credits: 1-3 |
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MAT 523 - Functions of a Real Variable I Topics include construction of Lebesgue measure and Lebesgue integral on the Euclidean Space, convergence, differentiation, general measure and integration, the Radon-Nikodym Theorem, the Daniell integral, topics in functional analysis.
Prerequisites & Notes A grade of C or better in MAT 426 or permission.
Credits: 3 |
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MAT 524 - Functions of a Real Variable II A continuation of MAT 523.
Prerequisites & Notes A grade of C or better in MAT 523.
Credits: 3 |
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MAT 527 - Functions of a Complex Variable I Elementary properties of holomorphic functions including the classification of isolated singularities, Laurent expansion and infinite product representations. Introduction to conformal mapping and the Riemann Mapping Theorem.
Prerequisites & Notes A grade of C or better in MAT 426 or permission.
Credits: 3 |
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MAT 528 - Functions of a Complex Variable II A grade of C or better in Continuation of MAT 527.
Prerequisites & Notes MAT 527.
Credits: 3 |
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MAT 531 - Mathematical Statistics I Covers axioms of probability, random variables, continuous and discrete distributions, moment generating functions, distributions of functions of random variables, sampling distributions.
Prerequisites & Notes A grade of C or better in MAT 425, MAT 434 or permission.
Credits: 3 |
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MAT 532 - Mathematical Statistics II Topics include principles and methods of parametric point estimation, interval estimation and hypothesis testing, non-parametric inference.
Prerequisites & Notes A grade of C or better in MAT 531.
Credits: 3 |
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MAT 533 - Stochastic Systems The study of mathematical models which involve random processes. Topics include Poisson process, waiting-line models, Markov chains, decision analysis and reliability theory. Some emphasis on modeling problems encountered in business and industry.
Prerequisites & Notes A grade of C or better in MAT 434.
Credits: 3 |
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MAT 555 - Probability Probability theory based on measure and integration. Probability spaces. Random variables and induced distributions. Mathematical expectation, independence. Various convergence concepts. The weak and strong law of large numbers. Characteristic functions. Central Limit Theorems.
Prerequisites & Notes A grade of C or better in MAT 425.
Credits: 3 |
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MAT 562 - Advanced Linear Algebra Topics covered include vector spaces, homomorphisms, bilinear forms, multilinear maps and tensor products, Jordan canonical forms of matrices, normed linear spaces, real and complex inner product spaces, basic ideas of functional analysis, applications.
Prerequisites & Notes A grade of C or better in MAT 262 and MAT 425 and MAT 463 or their equivalent.
Credits: 3 |
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MAT 563 - Abstract Algebra A study of basic structure theorems for groups, rings, fields and modules.
Prerequisites & Notes A grade of C or better in two courses from among MAT 262, MAT 463 and MAT 464.
Credits: 3 |
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MAT 577 - Topology I Fundamental concepts of topology, including cardinal and ordinal numbers, topological spaces, cartesian products, connectedness, compactness, continuity, separation axioms and metric spaces.
Prerequisites & Notes A grade of C or better in MAT 426 or permission.
Credits: 3 |
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MAT 578 - Topology II A continuation of MAT 577.
Prerequisites & Notes A grade of C or better in MAT 577.
Credits: 3 |
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MAT 590 - Graduate Research Seminar Current topics of mathematical interest are studied under faculty supervision. May be repeated for credit to a maximum of four times.
Credits: 1 |
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MAT 699 - Graduate Thesis None.
Credits: Ar |
Mechanical Engineering |
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MEE 432 - Heat Transfer The fundamental laws of heat transfer by conduction, convection and radiation. Applied to the study of engineering problems via analytical, numerical, and graphical techniques. Rec 3. (Fall.)
Prerequisites & Notes MAT 258 and MEE 360.
Credits: 3 |
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MEE 433 - Solar-Thermal Engineering Introduces solar energy collection and use as process thermal energy. Includes performance analysis of solar collectors and thermal energy storage devices both separately and as a combined system. Rec 3.
Prerequisites & Notes MEE 230.
Credits: 3 |
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MEE 434 - Thermodynamic Design of Engines Thermodynamic design of internal combustion engines to meet specified energy conversion requirements. Teaches the influence of fuel and air combustion on getting work output from the fuel’s internal energy and the importance of engine breathing through valves and ports on getting desired power and torque outputs at specified operating conditions.
Prerequisites & Notes Prerequisite: MEE 231.
Credits: 3 |
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MEE 442 - Mechanical Laboratory II A continuation of MEE 341. Mechanical engineering problems in a laboratory setting. (Fall) Lab 3.
Prerequisites & Notes MEE 231, MEE 241 or permission.
Credits: 2 |
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MEE 443 - Mechanical Laboratory III A continuation of MEE 442. Mechanical engineering problems in a laboratory setting (Spring). Lab 3.
Prerequisites & Notes MEE 231, MEE 341, MEE 442 or permission.
Credits: 3 |
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MEE 450 - Introduction to the Mechanics of Composite Materials Covers polymer matrix composites from the applied mechanics, design and manufacturing aspects. Includes recent developments in modeling and analysis techniques and fabrication methods. Rec 3.
Prerequisites & Notes MEE 251.
Credits: 3 |
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MEE 453 - Experimental Mechanics Experimental methods and techniques for analysis of stress and displacement. Also covers electric strain gages, brittle lacquers, mechanical and optical strain gages, and introduction to photoelasticity. Rec 2, Lab 2.
Prerequisites & Notes MEE 251.
Credits: 3 |
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MEE 455 - Advanced Strength of Materials Considers limitations of elementary stress formulas, theories of failure, unsymmetrical bending, beams, plates, torsion of non-circular bars, thick-walled cylinders, stress concentrations, energy methods. Introduces theory of elasticity. Rec 3.
Prerequisites & Notes MEE 251.
Credits: 3 |
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MEE 456 - Introduction to the Finite Element Method An introduction to the finite element methods including matrix operations, interpolation functions, basic element types, and implementation to problems in mechanical engineering including simple structures, plane stress, heat transfer and fluid mechanics. Rec 3. (Spring.)
Prerequisites & Notes MAT 258 and MEE 251.
Credits: 3 |
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MEE 462 - Fluid Mechanics II A continuation of MEE 360 including boundary-layer flows, inviscid incompressible flows, compressible flows and selected topics. Rec 3.
Prerequisites & Notes MEE 360.
Credits: 3 |
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MEE 471 - Mechanical Vibrations Examines free and forced vibrations with viscous damping for discrete and continuous mass systems as well as derivation and application of energy methods. Rec 3.
Prerequisites & Notes MEE 270 and MAT 258.
Credits: 3 |
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MEE 483 - Turbomachine Design Topics include: the theory and design of turbomachinery flow passages, control and performance of turbomachinery, gas-turbine engine processes. Rec 3.
Prerequisites & Notes MEE 230, MEE 360
Credits: 3 |
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MEE 484 - Power Plant Design and Engineering A study of power station engineering and economy, including design, construction and operation theory of steam, internal-combustion, and hydroelectric power plants. Introduction to nuclear power plants, solar energy, fuel cells, and associated problems. Rec 3.
Prerequisites & Notes MEE 230, MEE 231.
Credits: 3 |
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MEE 485 - Heating and Ventilating System Design Topics include determination of heating and ventilating requirements for buildings and industrial processes, analysis of heat transfer devices and their applications, heating an ventilating systems design, layout and control. Rec 3.
Prerequisites & Notes MEE 230
Credits: 3 |
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MEE 486 - Refrigeration and Air Conditioning System Design Examines methods of producing artificial low temperatures including refrigeration for controlled-temperature applications in comfort air conditioning and for industrial manufacturing processes. Rec 3.
Prerequisites & Notes MEE 231.
Credits: 3 |
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MEE 487 - Design III Design of mechanical engineering systems components, including problem definition, analysis, synthesis and optimization. Engineering ethics.
Satisfies the General Education Capstone Experience Requirement. Must be taken in series with MEE 488 to meet the Capstone Experience requirement. Neither course alone satisfies the requirement.
Prerequisites & Notes MEE 231, MEE 381; Corequisite: MEE 432 or permission.
Credits: 4 |
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MEE 488 - Design IV Design of mechanical engineering systems, including problem definition, analysis, synthesis and optimization. (Spring.) Satisfies the General Education Capstone Experience Requirement. Must be taken in series with MEE 487 to meet Capstone Experience requirement. Neither course alone satisfies the requirement. Rec 4. (Spring.)
Prerequisites & Notes MEE 231, MEE 381, MEE 432
Credits: 4 |
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MEE 498 - Selected Topics in Mechanical Engineering Topics in mechanical engineering not regularly covered in other courses. Content varies to suit needs. May be repeated for credit, with departmental permission.
Prerequisites & Notes permission.
Credits: 1-3 |
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MEE 500 - Research Methods Focuses on the development of critical research skills that are broadly applicable to mechanical engineering research through the development of a research proposal with the guidance of the course instructor and the student’s research advisor. Emphasis placed on the role of peer review on original research.
Prerequisites & Notes Graduate standing.
Credits: 3 |
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MEE 501 - Macroscopic Thermodynamics Concepts of energy transfer, internal energy and entropy are used to formulate the first and second laws of thermodynamics for a system. The equivalent entropy maximum and energy minimum principles are introduced. Emphasis on mechanical engineering problems including air conditioning applications, steam and gas turbine power plants, solar power, and thermoelectric phenomena.
Prerequisites & Notes MEE 231, MAT 258 or permission.
Credits: 3 |
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MEE 536 - Advanced Heat Transfer I A study of transfer of heat by conduction including use of approximate, exact analytical, and numerical techniques for the prediction of temperature distributions in both the steady and unsteady state.
Prerequisites & Notes MEE 432.
Credits: 3 |
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MEE 546 - Finite Elements in Solid Mechanics Basics of the finite element method with emphasis placed on solid mechanics applications. Fundamentals of the development of beam, plain strain, plate bending, asisymmetric and solid elements using the variation/isoparametric formulations. Solutions to composite structures and to eigenvalue problems included.
Prerequisites & Notes MEE 456.
Credits: 3 |
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MEE 550 - Mechanics of Laminated Composite Structures 3-D anisotropic constitutive relations. Classical lamination theory and boundary conditions for composite beams, plates and shells. Boundary value problems and solutions for static loads, buckling and vibrations. Higher order theories incorporating shearing deformation and layerwise theories. Interlaminar stresses and edge effects.
Prerequisites & Notes MEE 450 or permission.
Credits: 3 |
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MEE 554 - Theory of Elasticity Includes plane stress and plane strain, stress function; problems in Cartesian and polar coordinates; photoelasticity, strain energy; three-dimensional problems. Rec 3.
Prerequisites & Notes MAT 251 and MAT 258.
Credits: 3 |
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MEE 555 - Smart Materials A general coverage of all existing smart/active materials and biomaterials, their characteristics, properties, functions, modeling and simulations and engineering, scientific and medical applications.
Prerequisites & Notes Graduate standing in Engineering/Science or permission.
Credits: 3 |
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MEE 557 - Introduction to Continuum Mechanics Includes general formulation of classical field theories; fundamental concepts of motion, stress and energy for a continuum; general nature of constitutive equations for a continuum.
Prerequisites & Notes MEE 251, MEE 360.
Credits: 3 |
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MEE 560 - Computational Methods in Fluid Dynamics Numerical solutions of partial differential equations using finite differences and spectral methods. CFL constraints and stability. Incompressible, unsteady Navier-Stokes equations. Numerical simulation and flow vizualization using MATLAB.
Prerequisites & Notes MEE 360.
Credits: 3 |
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MEE 562 - Advanced Fluid Mechanics Development of the differential and integral equations of mass, momentum, and energy conservation for viscous fluids and application of these to internal, external, and boundary layer flows of incompressible, viscous fluids.
Prerequisites & Notes MEE 360.
Credits: 3 |
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MEE 573 - Advanced Vibrations I Advanced vibration theory and applications including multi-degree of freedom systems, transient and random vibrations, Lagrange’s equation, Laplace transformation and matrix iteration, computer techniques.
Prerequisites & Notes MEE 471.
Credits: 3 |
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MEE 574 - Advanced Vibrations II Covers theory of vibrations with continuously varying mass and stiffness; solutions of wave equations for strings, longitudinal and torsional systems, vibration of beams, methods of Rayleigh, Ritz and Stodola. Introduction to nonlinear vibrations.
Prerequisites & Notes MEE 471, MEE 573 or permission.
Credits: 3 |
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MEE 638 - Advanced Heat Transfer II A study of transfer of heat by convection including solution for velocity and temperature fields in convection problems by integral methods and similarity transformation.
Prerequisites & Notes MEE 432 or permission.
Credits: 3 |
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MEE 644 - Mechanical Engineering Analysis I Formulation and study of mathematical models applicable to mechanical engineering. Problems in heat transfer, thermodynamics, solid and fluid mechanics.
Prerequisites & Notes MAT 258 or permission.
Credits: 3 |
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MEE 646 - Advanced Finite Elements in Solid Mechanics Advanced techniques in applying the finite element methods to solid and structural mechanics. Solutions of eigenvalue problems associated with structural vibrations and buckling. Dynamic and nonlinear behavior. Emphasizes practical usage in solving engineering problems.
Prerequisites & Notes MEE 546 or permission.
Credits: 3 |
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MEE 658 - Theory of Plates and Shells A study of small deflection theory of plates including Navier and Levy solutions, approximate methods including point matching, large deflection problems, introduction to theory of shells.
Prerequisites & Notes MEE 251.
Credits: 3 |
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MEE 696 - Mechanical Engineering Graduate Seminar Recent developments in mechanical engineering and related fields based on the literature or current investigations. May be repeated for credit. (Pass/Fail Grade Only.)
Credits: 1 |
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MEE 697 - Mechanical Engineering Projects None.
Credits: Ar |
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MEE 699 - Graduate Thesis None.
Credits: Ar |
Modern Languages and Classics |
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MLC 420 - Spanish Film Areas covered may vary and could include the following topics: national cinemas; director of note; the social, political, historic and economic factors that influence both the creation and content of films; and an analysis of the components of cinematography. May be repeated for credit. Satisfies the General Education Social Contexts and Institutions and Artistic and Creative Expression Requirements.
Credits: 3 |
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MLC 421 - World Cinema: Multiple Perspectives on Identity and Culture Cultural differences often lead to misunderstanding, conflict, and comical situations. Analysis of varying world views will be contextualized within discussion of national cinema and its interconnectedness to the political and socio-cultural makeup of a given country.
Prerequisites & Notes ENG 280, HTY 218, or permission of instructor.
Credits: 3 |
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MLC 466 - The Teaching of Modern Languages Includes analysis of current trends and methods, application of language learning principles to classroom procedures, theory and practice of language methodologies at different learning levels, use of technologies such as video and computers in the instructional process. For students seeking certification in foreign language teaching.
Credits: 3 |
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MLC 467 - Literature in the K-12 Language Curriculum Introduces participants to methods and techniques of teaching literature in the target language. Curriculum design and assessment strategies discussed further students’ linguistic development, deepen understanding of target culture, enable creative language use and extend languages across other subjects in the K-12 curriculum. The hands-on workshop-type sections of the class will prepare participants for their curriculum development projects.
Prerequisites & Notes For teachers and students seeking certification in foreign language training.
Credits: 3 |
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MLC 475 - Contributions of European Linguistic Groups to the American Cultural Heritage A study of the cultural contributions of European language groups to the development of America. Examines the roots of many American traditions, traces origins of characteristic (place) names and words to early immigrants and investigates ways in which groups or individuals dealt with the new environment in accordance with their own heritage. A reading knowledge of a foreign language is recommended.
Credits: 3 |
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MLC 490 - Topics in Modern Languages Specific topics vary from semester to semester. May be repeated for credit.
Prerequisites & Notes permission.
Credits: 3 |
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MLC 493 - Study Abroad Permits the granting of foreign language credit for courses taken abroad with no exact University of Maine catalog equivalent. May be repeated for credit.
Credits: 1-6 |
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MLC 496 - Field Work in Modern Languages Supervised work in either the public or the private sector which is relevant to the study and use of a modern language. Requirements include an initial proposal which shows the relevance of the work experience to the student’s program in modern languages and a final report or paper.
Prerequisites & Notes an appropriate level of fluency as determined by the department.
Credits: 1-12 |
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MLC 566 - The Teaching of Modern Languages Includes current trends and methods in world language instruction, application of second language acquisition principles to classroom procedures, interplay of theory and practice at different proficiency levels, uses of technology in instructional process. For individuals seeking world language teaching (re)certification.
Prerequisites & Notes permission.
Credits: 3 |
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MLC 598 - Topics in Modern Languages None.
Credits: 3 |
Museum Studies |
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MSE 497 - Independent Study in Museum Studies/Museum Education Advanced independent study or research and writing projects in Museum Studies, Museum Education or related areas. May be repeated for credit.
Prerequisites & Notes MSE 200 or permission of instructor.
Credits: 1-3 |
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MSE 498 - Directed Study in Museum Studies/Museum Education Advanced directed study or research and writing projects in Museum Studies, Museum Education or related areas. May be repeated for credit.
Prerequisites & Notes MSE 200 or permission of the instructor.
Credits: 1-3 |
Music-Education |
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MUE 400 - Choral Music Education The organization and development of techniques requisite to a successful choral program.
Prerequisites & Notes Open to all music majors.
Credits: 3 |
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MUE 401 - Organization and Development of the Instrumental Music Program Covers instrumental organizations, review and application of instrumental pedagogy skills in laboratory settings.
Prerequisites & Notes MUP 345, MUE 209, MUE 213, MUE 217, MUE 222.
Credits: 3 |
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MUE 403 - Instrumental Laboratory Performance on secondary instruments in a heterogeneous setting. Required for those enrolled in MUE 401 but may be taken separately. Instrumental majors must attend Instrumental Laboratory for two of the three fall semesters following their first-year student year. Lab 1. (Offered every fall.)
Prerequisites & Notes Open to sophomore, junior and senior music education majors.
Credits: 1 |
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MUE 630 - Contemporary Music Education Investigates the historical and philosophical foundations of music education in relation to contemporary music curricula, teaching techniques and materials. Examines areas of concern for music education and their implications for present and future directions.
Credits: 3 |
|
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MUE 650 - Topics in Music Education Concentrated study of designated topics in Music Education. Topics will vary. May be repeated for credit.
Prerequisites & Notes permission.
Credits: 3 |
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