2018-19 Academic Catalog 
    
    Mar 29, 2024  
2018-19 Academic Catalog [ARCHIVED CATALOG]

Course Descriptions


For schedule and detailed course information, including schedule types, please see the Class Schedule and Course Descriptions webpage.

Schedule Type Classifications

The delivery of instruction often requires educational material to be organized and presented to students in a variety of ways. In order to facilitate the planning for and scheduling of classes to accommodate these multiple types of instruction, it is necessary to divide courses into organizational parts which reflect the unique combinations of instructors, meeting places, and time patterns used to conduct the instruction. The schedule types listed below are intended to reflect the nature of activities required of students, the relationship between students and their instructors, and the settings required to deliver the content of an instructional offering.

  • LEC — Lecture
  • LAB — Laboratory
  • DIS — Distance Education
  • CLN — Clinic
  • EX — Experiential
  • IND — Individual Study
  • SD — Studio
 

Mechanical Engineering

  
  • ME 51300 - Engineering Acoustics


    Credit Hours: 3.00. The simple oscillator. Lumped acoustical elements. Electro-mechanical-acoustical analogies. Wave motion in strings and membranes. Introduction to linear acoustics through derivation of the wave equation and simple solutions. Plane and spherical waves. Acoustic intensity. Plane wave transmission through fluid layers and simple barriers. Sound absorption. Modeling of acoustical sources: monopoles, dipoles, quadrupoles. Mechanisms of sound generation and directionality. Sound propagation in one-dimensional systems (e.g., ducts and mufflers). Introduction to room acoustics. Typically offered Fall.


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  • ME 51500 - Quality Control


    Credit Hours: 3.00. (ECE 51801). This course examines the design in order to acquire a better product/process quality. Other aspects of design included are robust design, parameter design, or Taguchi Techniques. This course also gives students a current understanding of the techniques and applications of design of experiments in quality engineering design. The students will learn design of quality control systems in manufacturing, use of advanced statistical process controls, sampling inspection techniques, process capability, and other statistical tools. Also included are vendor sourcing and control tools, methods for establishing specifications and tolerances, quality function deployment, and other quality control techniques. In addition, Six Sigma will be included. The course is aimed primarily to engineering graduate students interested in project management. Prerequisite: Basic Statistics. Typically offered Fall Spring Summer.


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  • ME 51600 - Advanced Engineering Project Management


    Prerequisite(s): ME 3100 FOR LEVEL UG WITH MIN. GRADE OF C- OR ECE 31200 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. (ECE 51600). Overview and concepts of project management (principles, body of knowledge, strategies); planning successful projects (defining, specifying, deliver options, scheduling, budgeting); implementing (organizing the team, work assignments, team building, team launch, effective leadership); risk analysis; executing (performance measurement, maintaining the schedule, adjustments/mid-course corrections, record keeping, status reporting, communications, managing conflict, time management); and closeout (performance measurement, maintaining the schedule, adjustments/ midcourse corrections, record keeping, status reporting, communications, managing conflict, time management). The course is aimed primarily to engineering graduate students interested in project management. Typically offered Fall Spring Summer.


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  • ME 51900 - Introduction To Wind Energy


    Prerequisite(s): ME 31200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This course is intended for the undergraduate and graduate engineer or scientist who is interested in the wind energy technology; introduce the students to the technology and economics of converting wind energy to electricity and the environmental concerns of wind energy. Topics include: Introduction to renewable energy; Wind characteristics; Wind resource estimation; Wind Turbine aerodynamics; Wind energy system economics, Wind turbine sitting and Environmental aspect and impact. Typically offered Fall Spring Summer.


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  • ME 52100 - Air Quality Modeling


    Prerequisite(s): ME 31200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This course is intended for the undergraduate and graduate engineer or scientist who is interested in the modeling of air pollution: the basic concepts of air quality and air pollution modeling; overview of practical and advanced approaches to air pollution modeling; evaluation and applications to air pollution related modeling. In order to obtain accurate assessments and forecasts of the effects of air contaminant dispersion, modeling based on solution of the nonlinear equations of fluid motion using Computational Fluid Dynamics (CFD) is a good choice. In this course, problems of engineering interest will be examined, related to both indoor and outdoor contaminant dispersion. Some of the homework problems will require use of a CFD code several source codes will be provided as well as access to commercial CFD codes. Typically offered Fall Spring Summer.


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  • ME 52300 - Electronics System Cooling


    Prerequisite(s): ME 41600 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. This is an introduction to thermal analysis and management of electronic equipment with focus on cooling of electronic devices. The emphasis of this course is on the application of fundamental heat transfer principles to predict thermal load, temperature distribution, and hot-spot in electronics. Topics include: Introduction to various modes of heat transfer; Fins and heat sinks- design, analysis, and optimization; thermoelectric and refrigeration cooling; nanofluids, liquid cooling, boiling heat transfer and phase change thermal storage system; heat pipes; Analysis and design studies for chip modules, printed circuit boards; and trends in thermal packaging. The course is aimed primarily to ME graduate students specializing in thermal and fluid science area. Typically offered Fall Spring Summer.


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  • ME 52400 - Design And Analysis-Heating Ventilation And Air Conditioning


    Prerequisite(s): ME 41600 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. This course is an introduction to analysis and design of HVAC&R system. The emphasis is on the application of fundamental heat transfer and fluid mechanics principles to analyze HVAC systems. The topics covered includes: Introduction and basic concepts, Psychometrics, air conditioning systems, equipment selection, duct design and piping design. Heating and cooling loads, solar radiation and heat transmission in buildings. Heat pumps. Application of air conditioning to residences, computer rooms, light commercial and high-rise buildings. The course is aimed primarily to ME graduate students specializing in thermal and fluid science area. Typically offered Fall Spring Summer.


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  • ME 53200 - Statistical Concepts In Engineering


    Credit Hours: 3.00. (ECE 52501). This course is directed toward the graduate student who has never had a statistics course or whose last statistics course was taken some time ago and a refresher course is required. The primary purpose of this course is to provide a basic understanding of fundamental probability and statistical principles, their underlying assumptions, and their use in data analysis using real-world engineering problems. The course is aimed primarily to engineering graduate students interested in project management. Prerequisite: Graduate standing and proficiency in Calculus. Typically offered Fall Spring Summer.


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  • ME 53400 - System Engineering


    Credit Hours: 3.00. (ECE 52701). In today’s environment, there is an ever-increasing need to develop and produce systems that are robust, reliable, high quality, supportable, cost-effective, and responsive to the needs of the customer or user. Reflecting these worldwide trends, System Engineering course introduces students to the full range of system engineering concepts, tools, and techniques, emphasizing the application of principles and concepts of system engineering and the way these principles aid in the development, utilization, and support of systems. The course covers systems engineering from both a technical and management perspective. The course is aimed primarily to engineering graduate students interested in project management. Typically offered Fall Spring Summer.


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  • ME 53600 - Numerical Methods In Engineering


    Credit Hours: 3.00. (ECE 50300) Numerical methods, solutions of equations of one variable, interpolation and polynomial approximation, numerical integration and differentiation, numerical solution of initial-value problems, solution of linear systems, iterative methods for solving linear systems, approximation theory, approximating eigenvalues, solutions of systems of nonlinear equations, boundary-value problems for ordinary differential equations, numerical methods for partial-differential equations. Typically offered Fall Spring Summer.


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  • ME 54300 - Advanced Engineering Economics


    Prerequisite(s): ME 31100 FOR LEVEL UG WITH MIN. GRADE OF C OR ECE 31200 FOR LEVEL UG WITH MIN. GRADE OF C

    Credit Hours: 3.00. Effective project managers have complete command of their project costs and a thorough understanding of the financial aspects of their business. This course reviews the fundamentals of accounting, examines project cost accounting principles, applications, and impact on profitability; examines the principles of project costing; covers the elements involved in cash management; introduces the framework for how projects are financed and the potential impact financing has on the projects; and a framework for using an effective project cost system. This course is aimed primarily to engineering graduate students interested in project management. Typically offered Fall Spring Summer.


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  • ME 56000 - Kinematics


    Prerequisite(s): ME 32000 FOR LEVEL UG WITH MIN. GRADE OF B-

    Credit Hours: 3.00. Geometry of constrained plane motion with applications to linkage design. Type and number synthesis, size synthesis. Path curvature, inflection circle, cubic of stationary curvature. Finite displacements, three and four separated positions. Graphical, analytical, and computer techniques. Typically offered Fall.


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  • ME 56300 - Mechanical Vibrations


    Prerequisite(s): CE 27300 FOR LEVEL UG WITH MIN. GRADE OF B- AND ME 32500 FOR LEVEL UG WITH MIN. GRADE OF B-

    Credit Hours: 3.00. Review of systems with one degree for freedom. LaGrange’s equations of motion for multiple degree of freedom systems. Introduction to matrix methods. Transfer functions for harmonic response, impulse response, and step response. Convolution integrals for response to arbitrary inputs. Principle frequencies and modes. Applications to critical speeds, meassuring instruments, isolation, torsional systems. Introduction to nonlinear problems. Typically offered Fall.


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  • ME 57500 - Theory And Design Of Control Systems


    Credit Hours: 3.00. Covers the analysis and design of control systems from both a classical and modern viewpoint, with emphasis on design of controllers. Classical control design is reviewed, including both root locus and Bode domain design methodologies. The state space representation is introduced, along with notions of stability, controllability, and observability. State feedback controllers for pole placement and state observers are discussed with emphasis in their frequency domain implications. Typically offered Fall.


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  • ME 58300 - Design Of Heat Exchangers


    Credit Hours: 3.00. An introduction to the thermal design theory of heat exchangers in steady state and transient operation, and thermo-mechanical design challenges as applied to various heat exchanger configurations. Topics include: Classification of heat exchangers; Methods of analyzing various heat exchanger; Pressure drop analysis and flow distribution; Design considerations for regenerators, plate-fin, shell-and-tube heat exchangers; etc; Optimization of heat exchanger design; and methods od predicting heat exchangers fouling. Typically offered Fall Spring Summer.


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  • ME 58700 - Engineering Optics


    Credit Hours: 3.00. Fundamentals of geometrical and physical optics as related to problems in engineering design and research. Characteristics of imaging systems; properties of light sources; optical properties of materials. Diffraction, interference, polarization, and scattering phenomena as related to optical measurement techniques. Introduction to lasers and holography. (Laboratory work can be undertaken for additional credit by special arrangement.). Typically offered Spring.


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  • ME 59700 - Advanced Mechanical Engineering Projects I


    Credit Hours: 0.00 to 6.00. Projects or special topics of contemporary importance or of special interest that are outside the scope of the standard graduate curriculum can be studied under the Mechanical Engineering Projects course. Interested students should seek a faculty advisor by meeting with individual faculty members who work in their area of special interest and prepare a brief description of the work to be undertaken in cooperation with their advisor. Permission of instructor required. Typically offered Fall Spring Summer.


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  • ME 66400 - Vibrations Of Continuous Systems


    Credit Hours: 3.00. Theory of small oscillations of continuous systems. Love’s equations for thin shells, reduction to special cases of shallow shells, plates, beams, etc. Initial stresses; influence of shear; thermal excitation. Initial value problems; forced vibrations; structural damping. The dynamic Green’s function, impedance concepts; variational approaches. Experimental procedures, scaling, composite, and stiffened shells. Prerequisite: knowledge of one degree of freedom system vibrations. Typically offered Spring.


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  • ME 69800 - Research MS Thesis


    Credit Hours: 1.00 to 18.00. Research MS Thesis. Permission of instructor required. Typically offered Fall Spring Summer.


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Mechanical Engineering Technology

  
  • MET 10000 - Production Drawing And Computer-Aided Design


    Credit Hours: 3.00. This course is an introduction to technical graphics and computer-aided design. The course includes sketching, production drawing, and a significant amount of hands-on experience on a CAD system. The production drawing portion covers topics like multi-view drawings, section views, auxiliary views, and dimensioning. Typically offered Fall.
    General Education: Technology


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  • MET 10100 - Introduction To Mechanical Engineering Technology


    Prerequisite(s): MET 10000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 1.00. This course provides a general introduction to engineering and technology career perspectives. In addition, the course is designed to instill in a student the skills required to be successful in college. The primary objective is to retain first semester college students in the univeresity community by building a link from past educational experiences to current educational opportunities. Typically offered Fall Spring.


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  • MET 10101 - Introduction To Parametric Modeling


    Prerequisite(s): MET 10000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. An introduction to three-dimensional parametric solid modeling, using industrial CAD software. Basic modeling features, assembly modeling, surface modeling, and generating drawings from models are covered. Typically offered Spring.


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  • MET 10200 - Production Design And Specifications


    Prerequisite(s): (MET 10100 FOR LEVEL UG WITH MIN. GRADE OF D- OR CGT 11000 FOR LEVEL UG WITH MIN. GRADE OF D-) AND MET 16200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. The design, evaluation, and documentation of engineering specifications required of manufacturability and assembly are introduced. Emphasis is on CAD-based details, assemblies, design layouts, equipment installations, and related industrial practices. Typically offered Spring.


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  • MET 11100 - Applied Statics


    Prerequisite(s): MET 16200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Force systems, resultants and equilibrium, trusses, frames, beams, and shear and moments in beams are studied. Typically offered Fall Spring Summer.


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  • MET 11800 - Applied Mechanics: Statics


    Prerequisite(s): (MA 14800 FOR LEVEL UG WITH MIN. GRADE OF D- OR MA 15400 FOR LEVEL UG WITH MIN. GRADE OF D- OR MA 15900 FOR LEVEL UG WITH MIN. GRADE OF D-)

    Credit Hours: 3.00. A study of force systems, resultants and equilibrium, centroids of areas and centers of gravity of bodies, trusses, frames, beams, friction and moments of inertia of areas and bodies. Typically offered Spring.


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  • MET 12000 - Blueprint Reading And Sketching


    Credit Hours: 1.00. This introductory course will incorporate blueprint reading, freehand sketching, understanding orthographic projections, dimensioning and tolerancing, and the use of symbols in industrial drawings. Typically offered Fall Spring Summer.


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  • MET 14100 - Materials I


    Prerequisite(s): MA 14700 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY) OR MA 15300 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY)

    Credit Hours: 3.00. An overview of structures, properties, and applications of metals, polymers, ceramics, and composites commonly used in industry is presented. Problem-solving skills are developed in the areas of materials selection, evaluation, measurement, and testing. Typically offered Spring.
    General Education: Technology


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  • MET 14200 - Manufacturing Processes I


    Prerequisite(s): MET 14100 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Basic casting, forming, and joining processes are surveyed. The course emphasizes the selection and application of various processes. Typically offered Fall Spring Summer.


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  • MET 16100 - Introduction To Engineering Technology


    Credit Hours: 1.00. This course will introduce engineering technology students to resources and skills that will help them to be successful in their studies and ultimately in their careers. This course will help students explore engineering technology by introducing campus, regional, and national resources such as professional societies in their chosen fields. It will also help students improve in areas important to becoming better students. These areas may include topics such as planning academic careers, mentoring, improving study skills, goal setting, and utilization of library resources. In addition, the course will focus on specific introductory concepts important to engineering technology students such as using campus computer resources and the TAC of ABET outcomes. Typically offered Fall.
    General Education: First Year Experience


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  • MET 16200 - Computational Analysis Tools In MET


    Credit Hours: 1.00. Instruction is given in analytical and computational problem-solving techniques. The electronic calculator, the factor-label method of unit conversions, and engineering graphs are used to solve technical problems in mechanical engineering technology. Credit will not be granted for both MET 16000 and 16200. Typically offered Spring.
    General Education: Quantitative Reasoning


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  • MET 21100 - Applied Strength Of Materials


    Prerequisite(s): (MET 11800 FOR LEVEL UG WITH MIN. GRADE OF D- OR MET 11100 FOR LEVEL UG WITH MIN. GRADE OF D-) AND MA 16019 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY)

    Credit Hours: 4.00. The principles of strength, stiffness, and stability are introduced and applied primarily to mechanical components. Typically offered Fall.


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  • MET 21300 - Dynamics


    Prerequisite(s): (MET 11100 FOR LEVEL UG WITH MIN. GRADE OF D- OR MET 11800 FOR LEVEL UG WITH MIN. GRADE OF D-) AND MA 16019 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY)

    Credit Hours: 3.00. Kinematics and kinetics principles of rigid-body dynamics are introduced. Emphasis is on the analysis of bodies in plane motion. Typically offered Fall.


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  • MET 21400 - Machine Elements


    Prerequisite(s): MET 21100 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 21300 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. The methods developed in statics, dynamics, and strength of materials are applied to the selection of basic machine components. The fundamental principles required for the selection of individual elements that compose a machine are developed. Selected course topics are included as computer exercises. Typically offered Fall Spring.


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  • MET 21501 - Applied Machine Elements


    Prerequisite(s): MET 21100 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 21300 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. The theories and methods developed in statics, dynamics, and strength of materials are applied to the selection of basic machine components. The course will develop the fundamental principles required for the selection of the individual elements of which a machine is composed. Typically offered Spring.


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  • MET 22000 - Heat And Power


    Prerequisite(s): MA 22300 FOR LEVEL UG WITH MIN. GRADE OF D (MAY BE TAKEN CONCURRENTLY) AND MET 16200 FOR LEVEL UG WITH MIN. GRADE OF D AND (PHYS 21800 FOR LEVEL UG WITH MIN. GRADE OF D OR PHYS 22000 FOR LEVEL UG WITH MIN. GRADE OF D)

    Credit Hours: 3.00. Heat/Power is an introduction to the principles of thermodynamics and heat transfer. Basic thermodynamic processes are used to evaluate the performance of energy-based systems such as internal combustion engines, power plants, and refrigeration equipment. Typically offered Fall Spring.


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  • MET 23000 - Fluid Power


    Prerequisite(s): PHYS 22000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This course consists of the study of compressible and incompressible fluid statics and dynamics as applied to hydraulic and pneumatic pumps, motors, transmissions, and controls. Typically offered Spring.


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  • MET 24200 - Manufacturing Processes II


    Prerequisite(s): MET 10000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This course surveys the manufacturing processes and tools commonly used to convert cast, forged, molded, and wrought materials into finished products. It includes the basic mechanisms of material removal, measurement, quality control, assembly processes, cold forming, safety, process planning, and automated manufacturing. Typically offered Fall.


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  • MET 29000 - Special Topics In MET


    Credit Hours: 1.00 to 3.00. Hours, subject matter, and credit to be arranged by faculty. Group instruction in new or specialty areas of Mechanical Engineering Technology is provided by MET faculty, subject to MET curriculum subcommittee approval. Typically offered Fall Spring Summer.


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  • MET 29900 - Mechanical Engineering Technology


    Credit Hours: 1.00 to 3.00. Independent project or laboratory work is conducted under the supervision of appropriate MET faculty. Hours and subject matter must be arranged by instructor and approved by MET curriculum subcommittee. Permission of instructor required. Typically offered Fall Spring Summer.
    General Education: Quantitative Reasoning, Technology


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  • MET 30200 - CAD In The Enterprise


    Prerequisite(s): MET 10200 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. Theory and practice of management, use and integration of computer-aided design systems, and related engineering tools and practices are studied as they are applied in the industrial enterprise. Emphasis is on course projects. Typically offered Summer Fall Spring.


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  • MET 30300 - Automotive sports


    Prerequisite(s): MET 10200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 1.00. This course is a one credit hour, per semester, course to be taken for up to three semesters. This course is designed to allow students to apply skills and knowledge learned, along with concurrent course material, to a defined project. The project can be chosen by the student or assigned by the instructor. The student will work on this project to develop and apply solutions to the project challenges or design and implement a new resolution. This course will allow students to explore new technologies that may not be covered in the MET program content. Typically offered Fall Spring Summer.


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  • MET 30500 - Computer-Aided Design With Applications


    Prerequisite(s): MET 10000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This course provides an advanced study of computer-aided drafting and design utilizing current industrial computer-aided design systems. The course covers the use of these systems in three dimensional and parametric modeling applications. Typically offered Fall Spring Summer.


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  • MET 31100 - Experimental Strength Of Materials


    Credit Hours: 3.00. Selected advanced topics from the areas of mechanics of materials, structures, stress analysis, and strain measurements are considered. Basic electronic strain gage circuits and instrumentation are presented, with emphasis on transducer applications. Typically offered Spring.


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  • MET 31300 - Applied Fluid Mechanics


    Prerequisite(s): MA 16021 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 23000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. The fundamental principles of fluid mechanics are developed, including properties of fluid, pressure, hydrostatics, dynamics of fluid flow, friction losses, and sizing of pipes. Emphasis is on problem solving. Typically offered Fall.


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  • MET 31500 - Applied Mechanism Kinematics And Dynamics


    Prerequisite(s): (CGT 11000 FOR LEVEL UG WITH MIN. GRADE OF C- OR CGT 16300 FOR LEVEL UG WITH MIN. GRADE OF C- OR IT 10500 FOR LEVEL UG WITH MIN. GRADE OF C-) AND (MET 21300 FOR LEVEL UG WITH MIN. GRADE OF C- OR MET 11300 FOR LEVEL UG WITH MIN. GRADE OF C-)

    Credit Hours: 3.00. Displacements, velocities, and accelerations are determined using graphical, semi-graphical, and numerical analyses of rotational and translational motions of common mechanisms such as linkages, cams, gears, screws, and chains as well as their loading.


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  • MET 32000 - Applied Thermodynamics


    Prerequisite(s): MET 22000 FOR LEVEL UG WITH MIN. GRADE OF D AND MA 22300 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. Following a review of fundamental concepts, advanced power and refrigeration cycles are analyzed. Applications such as gas mixtures, air-vapor mixtures, and chemical reactions of combustion processes are presented. Typically offered Fall Spring Summer.


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  • MET 32500 - Applied Thermodynamics I


    Prerequisite(s): MA 16021 FOR LEVEL UG WITH MIN. GRADE OF D- AND PHYS 22000 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Applications of perfect gas laws, steam tables, principles of conservation of mass and energy, and heat transfer as they apply to power plants, engines, pumps, fans and refrigeration systems. Typically offered Spring.


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  • MET 32900 - Applied Heat Transfer


    Prerequisite(s): PHYS 22000 FOR LEVEL UG WITH MIN. GRADE OF D- AND MA 16021 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. An applied approach to the introduction of basic vocabulary and concepts related to the steady state transfer (i.e. conduction, convection, radiation) will be covered. Additional topics will include heat exchangers, boilers and solar energy. Typically offered Fall.


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  • MET 33400 - Advanced Fluid Power


    Credit Hours: 3.00. Hydraulic and pneumatic circuits and their steady state and time variant behavior as it affects the selection and design of components and systems used in fluid power transmission and motion control are studied. Emphasis is placed on industrial and mobile applications, but the principles also apply to aerospace, marine, and other fluid power systems. Typically offered Fall Spring Summer.


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  • MET 34400 - Materials II


    Prerequisite(s): MET 14100 FOR LEVEL UG WITH MIN. GRADE OF D AND MET 21100 FOR LEVEL UG WITH MIN. GRADE OF D AND CHM 11100 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. Metals and polymers are studied. Topics include the bonding of atoms; the structures of crystals and polymers; the coldworking, alloying, and heat treating of metals; and the physical behavior of plastics. Course emphasis is on the development and control of material properties to meet engineering requirements and specifications. Typically offered Fall Spring Summer.


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  • MET 34700 - Programming Of Automation Systems


    Prerequisite(s): MET 10200 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 24200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Study of fundamental concepts in computer numerical control (CNC) technology. Cutter centerline programming, cutter diameter compensation, tool nose radius (TNR) compensation, coordinate transformation, canned cycles, subprograms, user macros. The lab includes programming and operation of CNC turning and milling machines, CAD/CAM programming, and integration of design and manufacturing through computer network. Typically offered Fall.


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  • MET 35500 - Automation I


    Prerequisite(s): ECET 35500 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. An introduction to the design and applications of programmable controller systems. Topics include programming techniques, input/output devices, personal computer interface, system design, safety and applications for automation. Typically offered Summer Fall Spring.


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  • MET 38200 - Controls And Instrumentation For Automation


    Prerequisite(s): PHYS 22100 FOR LEVEL UG WITH MIN. GRADE OF D- AND MA 16019 FOR LEVEL UG WITH MIN. GRADE OF D- AND ECET 21400 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Study of the procedures and techniques essential to industrial measurement and transmission of data is provided in the areas of microprocessor control, process control, and automated testing. Concepts of hysteresis, repeatability, weighted signals, span, suppression, range, and closed loop control are emphasized. Typically offered Spring.


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  • MET 38400 - Instrumentation


    Prerequisite(s): MA 14800 FOR LEVEL UG WITH MIN. GRADE OF D- AND ECET 21400 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Study of measurement theory and principles, including temperature, pressure, level, flow and similar measurement used to control manufacturing processes. Typically offered Fall Spring Summer.


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  • MET 40000 - Mechanical Design


    Prerequisite(s): CNIT 17500 FOR LEVEL UG WITH MIN. GRADE OF D AND MET 32000 FOR LEVEL UG WITH MIN. GRADE OF D AND MET 21400 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. Theory and practice in mechanical design are presented. Modern design methodologies will be studied. The integrative methods discussed in this course reflect the current industry trend to perform product design and development in cross-functional teams. Emphasis is on multiple open-ended projects. Typically offered Fall Spring Summer.


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  • MET 41100 - Introduction To The Finite Element Method


    Prerequisite(s): (PHYS 21900 FOR LEVEL UG WITH MIN. GRADE OF D OR PHYS 22100 FOR LEVEL UG WITH MIN. GRADE OF D) AND MA 22400 FOR LEVEL UG WITH MIN. GRADE OF D AND MET 21300 FOR LEVEL UG WITH MIN. GRADE OF D AND MET 21100 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. The finite element method is introduced, with emphasis on modeling and interpretation of results. Linear static problems are solved using commercial FEA software, and FEA results are verified through laboratory tests and/or theoretical calculations. Topics include trusses, frames, plane stress/strain, torsion, 3D structures, buckling, and natural frequency/mode shape analyses. Typically offered Spring.


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  • MET 42000 - Machine Design


    Prerequisite(s): MET 21501 FOR LEVEL UG WITH MIN. GRADE OF D- AND (ECET 26200 FOR LEVEL UG WITH MIN. GRADE OF D- OR MET 35500 FOR LEVEL UG WITH MIN. GRADE OF D-)

    Credit Hours: 3.00. Design of moving machinery in complex electro-mechanical systems. Several projects will be completed that include mechanical design and control design to obtain the desired specifications. Typically offered Spring.


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  • MET 42100 - Air Conditioning And Refrigeration


    Prerequisite(s): MET 32900 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Heat gains and losses, heat-producing equipment, cooling, and refrigeration equipment are studied. System design is presented, including controls and instrumentation for commercial, industrial, and residential systems. Typically offered Fall Spring.


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  • MET 42600 - Internal Combustion Engines


    Credit Hours: 3.00. The course deals with the fundamentals of internal combustion engines, with emphasis on performance, efficiency, and emissions. A comprehensive review of engine/vehicle operating systems is conducted. Related topics such as turbocharging, fuel oxygenates, lubrication, and computerized engine management are presented. Typically offered Fall Spring Summer.


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  • MET 45100 - Manufacturing Quality Control


    Prerequisite(s): STAT 30100 FOR LEVEL UG WITH MIN. GRADE OF D

    Credit Hours: 3.00. (MFET 45100) Quality control practices used in manufacturing industries; management, statistical control charts, reliability, sampling plans, economics, computer methods, and test equipment are presented and applied. Credit will not be granted for both MET 45100 and MFET 45100. Typically offered Fall Spring Summer.


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  • MET 46000 - Design for “X”


    Prerequisite(s): MET 21400 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 30500 FOR LEVEL UG WITH MIN. GRADE OF D- OR CGT 11600 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Application of methods and techniques used in engineering, combined with statistical methods to develop quality, customer driven product development. The course will include topics in Design for Six Sigma, Design for Manufacturability, Design for Serviceability and product life cycles. The course will require students to work in teams. 3D solid modeling will be used to generate ideas and complete product development. Course projects will be taken from industry recognized student design competitions. Typically offered Summer Fall Spring.


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  • MET 46100 - Computer Integrated Design And Manufacturing


    Prerequisite(s): MET 10200 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 21100 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 24200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. A combination of lecture and laboratory projects demonstrating the integration of all phases of a product’s life cycle from conception through recycling. Laboratory projects include designing parts, graphical finite element analysis, rapid phototyping, computer controlled manufacturing, and testing all using a common, three dimensional graphical database. Typically offered Fall.
    Experiential Learning (EL): Yes


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  • MET 46500 - Advanced Topics In Computer-Aided Design


    Prerequisite(s): MET 10000 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 20500 FOR LEVEL UG WITH MIN. GRADE OF D- OR MET 10200 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. This covers solid modeling and animation. These topics are built upon a foundation in computer modeling or CAD to produce photo realistic images as used in technical presentations, video, or film. Typically offered Fall Spring Summer.


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  • MET 49000 - Special Topics In MET


    Credit Hours: 1.00 to 3.00. Group instruction in new or specialty areas of mechanical engineering technology is provided by MET faculty, subject to MET curriculum subcommittee approval. Hours, subject matter, and credit to be arranged by faculty. Typically offered Fall Spring Summer.


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  • MET 49500 - Senior Project Survey


    Prerequisite(s): OLS 30000 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY) AND IET 30800 FOR LEVEL UG WITH MIN. GRADE OF D- AND MET 21501 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Students will select several design projects and give written or oral reports on their proposed solutions. They will be encouraged to select and finalize one project proposal in preparation for MET 49700. Typically offered Fall.
    Experiential Learning (EL): Yes


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  • MET 49700 - Senior Project


    Prerequisite(s): MET 49500 FOR LEVEL UG WITH MIN. GRADE OF D-

    Credit Hours: 3.00. Directed work on individual projects for senior mechanical engineering technology students. Typically offered Fall Spring Summer.
    Experiential Learning (EL): Yes


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  • MET 49900 - Mechanical Engineering Technology


    Credit Hours: 1.00 to 6.00. Independent project or study of a special topic is conducted under the supervision of appropriate MET faculty. Hours and subject matter must be arranged with the instructor and approved by the MET curriculum subcommittee before enrolling in the course. Permission of instructor required. Typically offered Fall Spring Summer.


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  • MET 52700 - Technology From A Global Perspective


    Credit Hours: 3.00. Introduction to the challenges faced by the practicing technologist when working and interacting with international technical personnel, both here and abroad, including history, standards, education, and practice of technology outside the United States. Typically offered Fall.


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  • MET 53300 - Nanotechnology And Applications


    Credit Hours: 3.00. This course provides an insight to the underlying principles and applications of this emerging field of Nanotechnology. Participants will be introduced to the scientific principles and theory of nanoscale dimension and discusses the current and future Nanotechnology applications and research in different fields. Graduate student status or senior status with instructor approval. Graduate students with insufficient background may be required to take leveling courses. Typically offered Fall Spring Summer.


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  • MET 58110 - Workshop In Mechanical Engineering Technology


    Credit Hours: 3.00. Advanced study of technical and professional topics. Emphasis is on new developments relating to technical, operational and training aspects of industry and technology education. May be offered classroom-based, online or hybrid or independent study. Permission of department required. Typically offered Fall Spring Summer.


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  • MET 59010 - Independent Study In Mechanical Engineering Technology


    Credit Hours: 1.00 to 3.00. Independent study of a special problem under the guidance of a member of the staff. Does not substitute for either M.S. thesis or M.S. project credit. Prerequisite: Master’s student standing. Permission of department required. Permission of instructor required. Typically offered Fall Spring Summer.


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Mechatronics Engineering Technology

  
  • MCET 10000 - Introduction To Mechatronics Engineering Technology


    Credit Hours: 3.00. This course will introduce students to resources, such as the facilities and functionalities offered by the university, and skills that will help them be successful in their careers. Students will be shown the mathematical representations for basic electrical components, digital logic and mechanical components. Computer software and test equipment will then be used to demonstrate behaviors of electrical and mechanical components as well as show the potential applications of these components. Typically offered Fall Spring Summer.


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  • MCET 21700 - Introduction To Process Control


    Prerequisite(s): ECET 10201 OR ECET 15401 OR ECET 21401

    Credit Hours: 3.00. This course introduces fundamental concepts of process control systems, open-loop and closed-loop controls. Topics also included are: input output characteristics of process elements; dead time and span; switching analysis of process hardware; modeling of static and dynamic processes; diode, transistor and semi-conductor controlled rectifier (SCR) switching characteristics; measurements of electronic signals; solid-state switching devices; loading effects and power interfaces; noise and signal conditioning and grounding; cables and their characteristics; various industrial instrument interface buses, standards and practices. (Not open to students with credit in ECET 21700.) Typically offered Spring.


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  • MCET 33000 - Industrial Programming And Networking


    Prerequisite(s): ECET 26200 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. This course covers monitoring, controlling, and networking smart sensors, controllers, and final control elements. Also covered are: virtual instrumentation and programming mechatronics systems using graphical software tools; data transfer between industrial platforms, field buses for control application, bus control protocol, serial real-time communication systems (SERCOS) interface system; controller and smart sensor network; wireless network for process control applications; networking of multiple controller and communication among them for motion control applications; motion control programming, programming languages and tools for industrial Programmable Logic Controller (PLC) programming; PLC open, standardization in industrial programming, and IEC 61131-3; mathematical modeling of industrial devices and systems virtual environment. (Not open to students with credit in ECET 33000.) Typically offered Spring.


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  • MCET 46200 - Application Of Computers In Process Control


    Prerequisite(s): MCET 21700 FOR LEVEL UG WITH MIN. GRADE OF C- OR ECET 36200 FOR LEVEL UG WITH MIN. GRADE OF C- OR ECET 21700 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. This course studies industrial process control systems. Topics include: continuous and discrete-state process control; analyzing process characteristics and controller tuning; closed loop control system characteristics, system stability, open loop and closed loop transient response; single, multivariable and cascade control systems; supervisory, direct computer control, and distributed control systems; virtual instrumentation and graphical software tools; analogies between electrical and mechanical systems; mathematical modeling of electromechanical systems; concepts of cam motion and inertia ratio; statistical process control (SPC); introduction to computer aided control software and hardware applied to process control. (Not open to students with credit in ECET 46200.) Typically offered Fall.


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  • MCET 47200 - Programmable Logic Controllers For Advanced Mechatronics Applications


    Prerequisite(s): ECET 26200 FOR LEVEL UG WITH MIN. GRADE OF C-

    Credit Hours: 3.00. This course covers advanced instruction set for programmable logic controllers (PLC) that includes: motion control, cam motion, product tracking, and other instructions necessary for packaging machinery applications. Other topics studied include: animations of packaging machinery systems using PLC emulators; advanced human-machine interface (HMI) layout design, configuration and interfacing HMI units with motion control PLCs: common industrial protocol (CIP) driven servomotor drives and their interface with motion control PLC; intelligent relays, PLC Input/output through CIP. Typically offered Spring.


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  • MCET 48200 - Application Of Industrial Robots For Advanced Manufacturing


    Prerequisite(s): ECET 26200 FOR LEVEL UG WITH MIN. GRADE OF C- AND (MCET 21700 FOR LEVEL UG WITH MIN. GRADE OF C- OR ECET 21700 FOR LEVEL UG WITH MIN. GRADE OF C-)

    Credit Hours: 3.00. This course provides an overview of robot mechanisms, dynamics, and intelligent controls. Topics include: planar and spatial kinematics; motion planning; mechanism design for manipulators and mobile robots; multi-rigid-body dynamics, 3D graphic simulation, control design, actuators, and sensors; wireless networking, task modeling, human-machine interface, and embedded software; programming industrial robots, robot cell design, end of arm tooling (EOAT) design; robot coupling with high speed vision systems. Typically offered Spring.


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Military Science and Leadership

  
  • MSL 10100 - Foundations of Officership


    Credit Hours: 1.00 or 2.00. Examines the unique duties and responsibilities of officers. Discuss organization and role of the Army. Review basic life skills pertaining to fitness and communication. Analyze Army values and expected ethical behavior. Typically offered Fall.


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  • MSL 10200 - Basic Leadership


    Credit Hours: 1.00 or 2.00. Presents fundamental leadership concepts and doctrine. Practice basic skills that underlie effective problem solving. Apply active listening and feedback skills. Examine factors that influence leader and group effectiveness. Examine the officer experience. Typically offered Spring.


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  • MSL 12000 - Read Military Maps Survival Skills


    Credit Hours: 1.00. Fundamentals of reading and interpreting maps and aerial photographs, including marginal information, symbols, map orientation, military grid reference system, and terrain analysis. Application by planning movement of small groups, emphasizing problem solving and control. Typically offered Fall Spring.


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  • MSL 20100 - Individual Leadership Studies


    Credit Hours: 2.00 or 3.00. Develops knowledge of self, self- confidence, and individual leadership skills. Develop problem solving and critical thinking skills. Apply communication, feedback, and conflict resolution skills. Typically offered Fall.


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  • MSL 20200 - Leadership And Teamwork


    Credit Hours: 2.00 or 3.00. Focuses on self-development guided by knowledge of self and group processes. Challenges current beliefs, knowledge, and skills. Provides equivalent preparation for the ROTC Advanced Course and the Leader’s Training Course. Typically offered Spring.


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  • MSL 30100 - Leadership And Problem Solving


    Credit Hours: 3.00 or 4.00. Examines basic skills that underlie effective problem solving. Review the features and execution of the Leadership Development Program. Analyze military missions and plan military operations. Execute squad battle drills. Permission of department required. Typically offered Fall.


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  • MSL 30200 - Leadership And Ethics


    Credit Hours: 3.00 or 4.00. Probes leader responsibilities that foster an ethical command climate. Develop cadet leadership competencies. Prepare for success at National Advanced Leadership Camp. Recognize leader responsibility to accommodate subordinate spiritual needs. Apply principles and techniques of effective written and oral communication. Permission of department required. Typically offered Spring.


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  • MSL 39000 - Topics In Military History


    Credit Hours: 3.00. Topics in Military History course will give historical perspective into decisions made by American military leaders. The course also examines the external political and social environments within which the military, and in particular its leaders, operate. This course is required for ROTC cadets but is open for all students on campus. Students not a part of ROTC must have instructor consent. Typically offered Fall Spring.


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  • MSL 40100 - Leadership And Management


    Credit Hours: 3.00 or 4.00. Builds on National Advanced Leadership Camp experience to solve organizational and staff problems. Discuss staff organization, functions, and processes. Examine principles of subordinate motivation and organizational change. Apply leadership and problem solving principles to a complex case study/simulation. Permission of department required. Typically offered Fall.


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  • MSL 40200 - Officership


    Credit Hours: 3.00 or 4.00. Designed to explore topics relevant to second lieutenants entering the Army. Describe legal aspects of decision making and leadership. Analyze Army orgnaization for operations from the tactical to strategic level. Assess administrative and logistics management functions. Permission of department required. Typically offered Spring.


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  • MSL 49000 - Directed Studies In Military Science


    Credit Hours: 1.00 to 3.00. Individual readings, topics, or projects in military science appropriate for advanced undergraduate students. Permission of instructor required. Typically offered Fall Spring Summer.


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Modeling, Simulation and Visualization

  
  • MSV 56500 - High Performance Computing


    Credit Hours: 3.00. An introduction to High Performance Computing (HPC), with an emphasis on the programming and analysis aspects of HPC for the practicing scientist, engineer or technologist. This course will prepare students to analyze, design, implement and evaluate parallel algorithms and computer codes. This course will cover the motivation for parallel programming, a description and analysis of Amdahl’s Law, and parallel-programming methodology. Shared-memory and distributed-memory concepts will be compared, and current programming application programming interfaces (APls) will be covered. General knowledge of undergraduate mathematics, science, engineering or technology required. Course may be offered in traditional classroom-based, distance, or blended formats. Typically offered Fall Spring Summer.


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  • MSV 56700 - Simulation Techniques


    Credit Hours: 3.00. An exploration of deterministic and stochastic simulation. Topics will include determining range of validity, boundary issues, managing complexity, optimization and parallelization of code, computational time management, adaptable meshes, fuzzy logic, and fidelity of simulation. Random number generation will also be covered for stochastic simulations. Examples and projects from a broad range of fields will be used. Course may be offered in classroom based, distance or hybrid formats. Typically offered Fall Spring Summer.


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  • MSV 57500 - Software Project Management


    Credit Hours: 3.00. The factors influencing decision during the initiation, implementation, and termination of software projects are examined. Students work in project teams, using project management tools to develop implementation strategies, characterize contemporary technology projects, understand system perspective of projects, align projects with strategic objectives and learn advanced tools and techniques used in projects. Examples and case studies from a wide range of fields are utilized. Typically offered Fall Spring Summer.


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  • MSV 57600 - Design And Analysis Of Simulation Experiments


    Credit Hours: 3.00. A review of currently accepted practices in design of simulation experiments, with validation and outcome analysis, and new techniques for model evaluation. Techniques covered may include methods for uncertainty quantification in deterministic models, design of experiments to match field experiments, data collection and sampling methods, data reduction methods, and imaging and statistical visualization. Course may be offered in classroom based, distance, or hybrid formats. Typically offered Fall Spring Summer.


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  • MSV 57700 - Visualization Techniques


    Credit Hours: 3.00. In this course graduate students in technology fields and related disciplines will learn how to convey salient information about underlying data and processes for work involving data visualization. Topics covered include various visualization techniques, issues in visual analytics, perceptions and cognition, and application of visualization techniques to problems in technical fields and related disciplines. Course may be offered in classroom based, distance or hybrid formats. Typically offered Fall Spring Summer.


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Music History and Theory

  
  • MUS 20300 - Music For Elementary Teachers


    Credit Hours: 2.00. An undergraduate methods course to provide future teachers in the elementary school with the knowledge, skills, and resources necessary to enhance the regular classroom situation with meaningful and varied musical experiences, and to execute the same with confidence, creativity, and enthusiasm. enthusiasm. Typically offered Fall Spring Summer.


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  • MUS 25000 - Music Appreciation


    Credit Hours: 3.00. The traditions, forms, and styles of classical music. Other types of music may be examined as well. (Students may register through the Continuing Education Student Learning Center at the Tech Statewide locations via distance education.) Typically offered Fall Spring Summer.CTL:IFA 1330 Music Appreciation
    General Education: Humanities


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  • MUS 29000 - Special Topics In Music


    Credit Hours: 1.00 to 3.00. Topics will vary.. Typically offered Fall Spring.


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  • MUS 35500 - American Musical Theatre


    Credit Hours: 3.00. (THTR 355) A study of the origin, artistry, and unique qualities of the American musical theatre. Typically offered Fall Spring Summer.


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  • MUS 36100 - Music Theory I


    Credit Hours: 3.00. Course comprises instruction in melodic and harmonic processes in tonal music; development of analytic, listening and piano techniques with musical equipment. Music reading ability is required, verified through Placement Exam. Typically offered Fall Spring.


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  • MUS 36200 - Music Theory II


    Prerequisite(s): MUS 36100 FOR LEVEL UG WITH MIN. GRADE OF C

    Credit Hours: 3.00. A variety of styles and forms of music serve to exemplify melodic and harmonic processes and voice-leading practices in diatonic tonal music. Activities include analytic reading of musical scores, developing musical listening skills, and acquiring functional piano techniques. Typically offered Fall Spring.


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  • MUS 36300 - Music Theory III


    Prerequisite(s): MUS 36200 FOR LEVEL UG WITH MIN. GRADE OF C

    Credit Hours: 3.00. Analytic study of art music and popular music representative of diatonic and chromatic tonal processes. Activities include analytic reading of musical scores, developing musical listening skills, and acquiring functional piano techniques. Creative applications are encouraged. Typically offered Fall.


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