IE 113 CAREERS IN INDUSTRIAL AND MANUFACTURING ENGINEERING (1)
Various interactive forums, including guest speakers, industrial tours, panel discussions, and student presentations will be used to inform students about the educational requirements, job functions, career paths, work environments, industry trends, and job prospects for industrial and manufacturing engineers. May be repeated for credit.
This course is repeatable for a maximum of 2 credits.
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IE 212 COMPUTATIONAL METHODS FOR INDUSTRIAL ENGINEERING (4)
Engineering problem solving using computational methods. Data structures. Modular programming. Sorting and search algorithms. Algorithms for inventory models, production scheduling, production line analysis, and optimization.
PREREQS:
ENGR 112
and
algebra, calculus, differentiation and integration.
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IE 285 INTRODUCTION TO INDUSTRIAL AND MANUFACTURING ENGINEERING (3)
Introduction to selected topics in industrial and manufacturing engineering, including history and philosophy, product design and manufacturing cycle, integrated role of engineering and business, and multi-objective nature of organizations. Surveys of selected design problems in resource allocation, operations and quality management, and production engineering.
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IE 336 PRODUCTION ENGINEERING (4)
Students will develop a general understanding of the production engineering function within industry. Geometric dimensioning and tolerancing, process design, and fixture and a gage design will be introduced and explored through the application of machining processes. Students will also develop an understanding of sustainable manufacturing.
PREREQS:
ENGR 213 and ENGR 248 and (ENGR 321 or ENGR 321H) and ENGR 390 and ME 250 and ME 382
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IE 337 MATERIALS AND MANUFACTURING PROCESSES (4)
Materials only become useful when they are made into products. Coures focuses on introduction to methods by which materials can be processed into different shapes. The overall goal is to develop an understanding of how a process involves considering the shape of a product as well as the materials it is to be made from. Lec/lab.
PREREQS:
ENGR 321
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IE 338 MANUFACTURING PROCESS DEVELOPMENT (4)
The motivation and method of industrial process development including the requirements, design and implementation of manufacturing processes. Specific processes addressed depend on industrial constituency but could include CNC machining, SMT soldering, injection molding and metal forming. Lec/lab.
PREREQS:
IE 337
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IE 355 STATISTICAL QUALITY CONTROL (4)
Control of quality through the use of statistical analysis; typical control techniques and underlying theory. Development of reliability models and procedures for product assurance.
PREREQS:
ST 314 or equivalent statistical material.
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IE 356 EXPERIMENTAL DESIGN FOR INDUSTRIAL PROCESSES (4)
Systematic analysis of processes through the use of statistical analysis, methods, and procedures. Application of statistical techniques including use of classic process analysis techniques, regression and design of experiments.
PREREQS:
ST 314 or equivalent statistical material.
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IE 366 WORK SYSTEMS ENGINEERING (4)
Principles and techniques of work measurement, methods engineering, workplace design, work sampling, and predetermined time systems. Basic human factors engineering and ergonomics principles applied to workplace design. The work systems engineering process.
PREREQS:
ST 314 or equivalent statistical material.
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IE 367 PRODUCTION PLANNING AND CONTROL (4)
Forecasting techniques, inventory analysis, master production scheduling, material and capacity requirements, planning and scheduling methods.
PREREQS:
ST 314 or equivalent statistical material.
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IE 368 FACILITY DESIGN AND OPERATIONS MANAGEMENT (4)
Design and analysis of industrial facilities including just-in-time systems, queuing, material handling systems, material flow analysis, line balancing, systematic layout planning, design of warehouse facilities, and facilities location.
PREREQS:
ST 314 or equivalent.
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IE 403 THESIS (1-16)
PREREQS:
Departmental approval required.
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IE 405 READING AND CONFERENCE (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 406 PROJECTS (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 407 SEMINAR (1-16)
This course is repeatable for a maximum of 16 credits.
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IE 410 INTERNSHIP (1-16)
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IE 411 VISUAL PROGRAMMING FOR INDUSTRIAL APPLICATIONS (4)
Object-oriented modeling, Unified Modeling Language, software development concepts, file and database connectivity, and visual programming skills (Microsoft Visual Basic) for use in developing industrial applications, such as process monitoring and supply chain management.
PREREQS:
CS 151 or equivalent.
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IE 412 INFORMATION SYSTEMS ENGINEERING (4)
Framework for enterprise information systems. Engineering and scientific systems. Requirements definition, enhanced entity relationship modeling, logical modeling, structured query language, relational model, referential integrity. Lec/lab.
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IE 413 E-COMMERCE APPLICATIONS FOR ENGINEERS (3)
Design of distributed information systems for industrial environments, e-commerce systems, supply chain systems. Application of Web software to develop components of industrial information systems.
PREREQS:
IE 411
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IE 415 SIMULATION AND DECISION SUPPORT SYSTEMS (4)
Analysis and design of integrated manufacturing systems through the application of computer modeling techniques. Model validation and verification. Application of simulation and decision support systems to management and engineering.
PREREQS:
ST 314
and
programming experience.
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IE 416 ARTIFICIAL INTELLIGENCE SYSTEMS FOR ENGINEERING (3)
Concepts of symbolic problem solving, knowledge representation, and inference applied to problems in engineering analysis and design. Artificial Intelligence programming.
PREREQS:
(IE 411 or IE 511) and senior or graduate standing in engineering.
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IE 417 BAR CODES AND AUTOMATIC DATA CAPTURE (4)
Bar code symbologies, two-dimensional bar code symbologies, bar code reading and printing, smart cards, automatic speech recognition, and wireless technologies. Lec/lab.
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IE 418 TELECOMMUNICATION CONCEPTS (3)
Telecommunication concepts for industrial applications. OSI reference model, local area networks, wide area networks, internet architecture.
PREREQS:
Previous programming experience.
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IE 419 WIRELESS NETWORKS (3)
RF fundamentals, ISO 802.11 standards, spread spectrum technology, narrow band technology, direct sequence and frequency hopping transmission schemes, electromagnetic interference, design of indoor wireless networks.
PREREQS:
IE 418
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IE 425 INDUSTRIAL SYSTEMS OPTIMIZATION (4)
Techniques of analysis and solution of problems in industrial and management systems. Emphasis on applications of linear programming, integer programming, and queuing analysis.
PREREQS:
ST 314 or equivalent statistical material and MTH 306 or MTH 341
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IE 436 LEAN MANUFACTURING SYSTEMS ENGINEERING (4)
The planning, evaluation, deployment, and integration of lean manufacturing theory and methods. Examines manufacturing processes/equipment and systems, e.g. planning/control, product design, supply chain resource management. Lec/lab.
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IE 437 VIRTUAL AND AUTOMATED MANUFACTURING SYSTEMS (4)
Automated manufacturing system design and operations- sensors, actuators, programmable controls. Concepts for integrated design/verification of virtual system models, control and hardware implementation.
PREREQS:
IE 337 should be taken concurrently.
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IE 470 MANAGEMENT SYSTEMS ENGINEERING (4)
Improvement of organizational performance through the design and implementation of systems that integrate personnel, technological, environmental, and organizational variables. Topics include performance assessment and measurement as well as improvement methodologies.
PREREQS:
Senior standing.
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IE 471 PROJECT MANAGEMENT IN ENGINEERING (3)
Critical issues in the management of engineering and high-technology projects are discussed. Time, cost, and performance parameters are analyzed from the organizational, people, and resource perspectives. Network optimization and simulation concepts are introduced. Resource-constrained project scheduling case discussions and a term project are included.
PREREQS:
Junior standing in engineering.
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IE 475 ADVANCED MANUFACTURING COSTING TECHNIQUES (3)
Costing techniques applicable in advanced manufacturing enterprises: activity-based costing, economic value added, Japanese cost management techniques, life cycle costing, throughput accounting, cost of quality, and financial versus operational performance measures. Emphasis on linkages to such advanced manufacturing systems as cellular manufacturing, flexible manufacturing, JIT, Lean, and ERP.
PREREQS:
BA 211 and ENGR 390
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IE 491 SELECTED TOPICS IN SYSTEMS STUDIES (1-5)
Recent advances in industrial engineering pertaining to the theory and application of system studies. Analysis and design of natural resource systems; evaluation; detection extraction; processing and marketing systems; advanced design of production systems with reference to social, economic, and regional planning; human engineering studies of man-machine systems; applications of operations research techniques. Nonsequence course. Not offered every term.
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IE 492 SELECTED TOPICS IN SYSTEMS STUDIES (1-5)
Recent advances in industrial engineering pertaining to the theory and application of system studies. Analysis and design of natural resource systems; evaluation; detection extraction; processing and marketing systems; advanced design of production systems with reference to social, economic, and regional planning; human engineering studies of man-machine systems; applications of operations research techniques. Nonsequence course. Not offered each term.
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IE 497 INDUSTRIAL ENGINEERING ANALYSIS AND DESIGN (4)
Product design; selection and replacement of major tools, processes, and equipment; paperwork controls; subsystem revision; system or plant revision; selection and training of personnel; long-run policies and strategy. CROSSLISTED as ME 418. (Writing Intensive Course)
PREREQS:
IE 337 and IE 355 and IE 356 and IE 366 and IE 367 or IE 368
and
senior standing in industrial engineering or manufacturing engineering.
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IE 498 INDUSTRIAL ENGINEERING ANALYSIS AND DESIGN (4)
Product design; selection and replacement of major tools, processes, and equipment; paperwork controls; subsystem revision; system or plant revision; selection and training of personnel; long-run policies and strategy. CROSSLISTED as ME 419. (Writing Intensive Course)
PREREQS:
IE 497
and
senior standing in industrial engineering or manufacturing engineering.
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IE 499 SPECIAL TOPICS (1-16)
This course is repeatable for a maximum of 99 credits.
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IE 503 THESIS (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 505 READING AND CONFERENCE (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 506 PROJECTS (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 507 SEMINAR (1-16)
This course is repeatable for a maximum of 16 credits.
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IE 511 VISUAL PROGRAMMING FOR INDUSTRIAL APPLICATIONS (4)
Object-oriented modeling, Unified Modeling Language, software development concepts, file and database connectivity, and visual programming skills (Microsoft Visual Basic) for use in developing industrial applications, such as process monitoring and supply chain management.
PREREQS:
CS 151 or equivalent.
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IE 512 INFORMATION SYSTEMS ENGINEERING (4)
Framework for enterprise information systems. Engineering and scientific systems. Requirements definition, enhanced entity relationship modeling, logical modeling, structured query language, relational model, referential integrity. Lec/lab.
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IE 513 E-COMMERCE APPLICATIONS FOR ENGINEERS (3)
Design of distributed information systems for industrial environments, e-commerce systems, supply chain systems. Application of Web software to develop components of industrial information systems.
PREREQS:
IE 411
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IE 515 SIMULATION AND DECISION SUPPORT SYSTEMS (4)
Analysis and design of integrated manufacturing systems through the application of computer modeling techniques. Model validation and verification. Application of simulation and decision support systems to management and engineering.
PREREQS:
Programming experience.
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IE 516 ARTIFICIAL INTELLIGENCE SYSTEMS FOR ENGINEERING (3)
Concepts of symbolic problem solving, knowledge representation, and inference applied to problems in engineering analysis and design. Artificial Intelligence programming.
PREREQS:
(IE 411 or IE 511) and graduate standing in engineering.
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IE 517 BAR CODES AND AUTOMATIC DATA CAPTURE (4)
Bar code symbologies, two-dimensional bar code symbologies, bar code reading and printing, smart cards, automatic speech recognition, and wireless technologies. Lec/lab.
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IE 518 TELECOMMUNICATION CONCEPTS (3)
Telecommunication concepts for industrial applications. OSI reference model, local area networks, wide area networks, internet architecture.
PREREQS:
Previous programming experience.
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IE 519 WIRELESS NETWORKS (3)
RF fundamentals, ISO 802.11 standards, spread spectrum technology, narrow band technology, direct sequence and frequency hopping transmission schemes, electromagnetic interference, design of indoor wireless networks.
PREREQS:
IE 518
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IE 521 INDUSTRIAL SYSTEMS OPTIMIZATION I (3)
Techniques for analysis and solution of problems in industrial and management systems. Emphasis on application of linear and integer programming and extensions.
PREREQS:
MTH 341
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IE 522 INDUSTRIAL SYSTEMS OPTIMIZATION II (3)
Techniques for analysis and solution of problems in industrial and management systems. Emphasis on applications of dynamic programming. Markovian processes, and questions as applied to industrial problems.
PREREQS:
ST 514
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IE 531 MESO-SCALE MANUFACTURING (3)
Meso-scale processing techniques for fabricating microfluidic devices, especially microtechnology-based energy, chemical and biological systems. Introduction to microlamination and techniques for lamina patterning, registration and bonding. Lec/lab.
PREREQS:
Graduate standing in science or engineering.
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IE 532 MICROFABRICATION TECHNOLOGY (3)
Survey of microfabrication processing techniques, including bulk, surface, and mold micromachining and application of this technology to microelectromechanical systems (MEMS). Some review of semiconductor integrated circuit processing. Lec/lab.
PREREQS:
Graduate standing in engineering science.
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IE 534 CERAMICS PROCESSING (3)
Introduction to materials, manufacturing methods, properties and applications of ceramics. The emphasis of the course is on understanding and exploring the inter-relationships between material characteristics, processing variables and component geometry in the context of ceramics.
PREREQS:
Graduate standing in engineering or science, or senior standing in manufacturing engineering.
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IE 536 LEAN MANUFACTURING SYSTEMS ENGINEERING (4)
The planning, evaluation, deployment, and integration of lean manufacturing theory and methods. Examines manufacturing processes/equipment and systems, e.g. planning/control, product design, supply chain resource management. Lec/lab.
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IE 537 VIRTUAL AND AUTOMATED MANUFACTURING SYSTEMS (4)
Automated manufacturing system design and operations- sensors, actuators, programmable controls. Concepts for integrated design/verification of virtual system models, control and hardware implementation.
PREREQS:
Graduate standing in engineering. Concurrent enrollment in IE 337 is recommended.
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IE 545 HUMAN FACTORS ENGINEERING (4)
Analysis and design of work systems considering human characteristics, capabilities and limitations. Analysis and design of displays, controls, tools, and workstations. Human performance analysis. Human factors research methods.
PREREQS:
Graduate standing.
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IE 546 HUMAN-MACHINE SYSTEMS ENGINEERING (3)
Development of safe, high performance human-machine systems. System/function/task analysis, function allocation, design, mockups and rapid prototyping, human factors test and evaluation. Critical examination of the human-factors and domain-specific literature to identify human factors problems, and knowledge and methods to address those problems.
PREREQS:
IE 545
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IE 548 COGNITIVE ENGINEERING (3)
Theories and models of human sensory, cognitive, and motor performance pertaining to the operation of complex systems. Applications to human-machine systems engineering. Research topics and methods related to cognitive engineering.
PREREQS:
Graduate standing in science or engineering and IE 545
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IE 552 DESIGN OF INDUSTRIAL EXPERIMENTS (3)
Techniques for the statistical analysis and design of industrial control systems. Emphasis on the use of advanced mathematical models and techniques for the control and enhancement of industrial productivity. Applications include, but are not limited to, the estimation and control of process fallout and rework.
PREREQS:
IE 351 or IE 551
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IE 563 ADVANCED PRODUCTION PLANNING AND CONTROL (3)
Application of quantitative and heuristic methods to problems of production, material, and capacity planning. Mathematical models for inventory systems, sequencing, and scheduling. Assembly line balancing methods. Just-in-time manufacturing.
PREREQS:
IE 521 and ST 314
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IE 564 DESIGN AND SCHEDULING OF CELLULAR MANUFACTURING SYSTEMS (3)
Designing manufacturing cells. Impact of alternate process plan on cell design. Part-machine assignment to cells. Disaggregated manufacturing cells. Group scheduling.
PREREQS:
Graduate standing, computer experience.
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IE 570 MANAGEMENT SYSTEMS ENGINEERING (4)
Improvement of organizational performance through the design and implementation of systems that integrate personnel, technological, environmental, and organizational variables. Topics include performance assessment and measurement as well as improvement methodologies.
PREREQS:
Graduate standing.
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IE 571 PROJECT MANAGEMENT IN ENGINEERING (3)
Critical issues in the management of engineering and high-technology projects are discussed. Time, cost, and performance parameters are analyzed from the organizational, people, and resource perspectives. Network optimization and simulation concepts are introduced. Resource-constrained project scheduling case discussions and a term project are included.
PREREQS:
Junior standing in engineering.
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IE 591 SELECTED TOPICS IN SYSTEM STUDIES (1-5)
Recent advances in industrial engineering pertaining to the theory and application of system studies. Analysis and design of natural resource systems; evaluation; detection extraction; processing and marketing systems; advanced design of production systems with reference to social, economic, and regional planning; human engineering studies of man-machine systems; applications of operations research techniques. Nonsequence course. Not offered every term.
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IE 592 SELECTED TOPICS IN SYSTEM STUDIES (1-5)
Recent advances in industrial engineering pertaining to the theory and application of system studies. Analysis and design of natural resource systems; evaluation; detection extraction; processing and marketing systems; advanced design of production systems with reference to social, economic, and regional planning; human engineering studies of man-machine systems; applications of operations research techniques. Nonsequence course. Not offered each term.
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IE 594 RESEARCH METHODS IN ENGINEERING (3)
Introduction to research methodologies including surveys, interviews, quasi-experimentation, and case studies. Methods for research design, and collection and analysis of data.
PREREQS:
Graduate standing or instructor approval.
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IE 603 THESIS (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 605 READING AND CONFERENCE (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 606 PROJECTS (1-16)
This course is repeatable for a maximum of 16 credits.
PREREQS:
Departmental approval required.
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IE 607 SEMINAR (1-16)
This course is repeatable for a maximum of 16 credits.
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2004 Oregon State University
