oregon engineering license requirements

Focuses on problem solving skills, algorithm design, debugging, and writing programs using universal design principles. Introduction to thermodynamic modeling. Knowledge representation and reasoning. Explores the role of failure in the design and redesign of Outdoor Products. Credits may not apply toward BS degree in Mechanical Engineering. Prerequisite: CCE321 with C or better and (FE315 [C] or CE372 [C] or CEM372 [C]) and (CEM383 [C] or CE383 [C]). As minimum evidence of qualification for registration as a professional engineer, an applicant must: (1) Except as provided in ORS 672.146 (Alternatives to degree requirements), provide evidence of graduation in a college or university engineering program of four years or more approved by the State Board of Examiners for Engineering and Land Surveying; Topics include permanent and cleavable cross-linkers, protein modification reagents, immobilization of enzymes/DNA, enzyme-antibody conjugates, protein-protein interactions, PEGylation and labeling of proteins, and solid-phase peptide synthesis. Covers scientific principles of surface and structural characterization techniques. Uses digital image correlation data for quantitative validation of analytical and numerical (FEA) mechanics models, and characterization of failure and fracture mechanisms. Develops computer programs for nonlinear structural analysis. Introduction to the finite-element method. Lec/rec. Graphic and design projects from the areas of civil and construction engineering. Topics include atmospheric processes, precipitation and runoff, storm response in streamflow on a watershed scale, and major concepts in groundwater systems. (Bacc Core Course). Prerequisite: ECE 356 with C or better or ECE451 with C or better or ME320 with C or better or ME320H with C or better or ME 430 with C or better or ME 430H with C or better. Corrosion prevention through materials selection, design, cathodic and anodic protection and coatings. Offers an in-depth close look at a series of core tasks in SP and ML that are enabled by analytical and computational tools in matrix analysis. Analyze anisotropic materials, fibers and matrices, mechanics of composites including properties and applications, principles of composites manufacturing, experimental characterization of composites, composites light-structures. Investigate algorithms for inventory models, production scheduling, production line analysis, and optimization. Introduces those concepts in the context of protein interaction, gene regulatory, and metabolic networks. Radionuclides in the environment: their measurement and identification, uptake and transfer through food chains. Presentations from on-campus and off-campus speakers discussing state of technology topics in ocean engineering research, development, and construction. Offered at OSU-Cascades only. Application of circuit analysis to solve single-phase and three-phase circuits including power, mutual inductance, transformers and passive filters. Keeping your engineering license often means fulfilling continuing education requirements and staying up to speed on new technologies and developments. Topics include rigid and flexible retaining structures, ranging from gravity and cantilever systems, cantilever and anchored sheet piling, tied-back shoring elements, soil nailing, and mechanically stabilized earth walls. Covers the fundamentals of hydrographic surveys performed to measure the depth and bottom configuration of water bodies in support of nautical charting and other areas of marine geomatics, as well as marine construction, benthic habitat mapping, marine spatial planning, and bathymetric mapping of rivers and lakes. Prerequisite: CS290 with C or better and CS340 [C] and CS372 [C]. Integrates project management skills, basic management knowledge, and engineering economic analysis. In addition, Introduction to the integration of geospatial data and analysis for decision making and management for site selection, mitigation, change analysis, modeling and assessment. Design of multimedia systems for information technology covering the hardware, software, applications, and networks. Prerequisite: CHE443 (may be taken concurrently) with C or better. Theory and practice of basic semiconductor processing techniques. Topics include state estimation, robot motion, perception, localization and decision making under uncertainty. Topics include internal microcontroller architecture, interfacing peripheral devices, mixed analog and digital systems, and hardware and software implementation of several systems using a microcontroller and peripherals. Applications to real world issues with global implications at the interface of humanity and nature are addressed from a systems perspective using a case study approach. The field of human-robot interaction brings together research and application of methodology from robotics, human factors, human-computer interaction, interaction design, cognitive psychology, education and other fields to enable robots to have more natural and more rewarding interactions with humans throughout their spheres of functioning. Corrosion modeling. Determination of stresses, deflections, and stability of deformable bodies with an introduction to finite element analysis. Thermodynamics of solutions and phase equilibrium. Topics supporting course objectives include planning and execution of subsurface investigations, interpretation of in-situ tests, analysis and design of deep and shallow foundations, including geotechnical capacity, and immediate settlement. Covers various network centralities, topological measures, clustering algorithms, probabilistic annotation models and inference methods. Lec/rec. Provides a quantitative description of fundamental ecohydrologic processes, the interactions of between water and the atmosphere, soils, and plants, as well as techniques for estimating the movement of water in the though ecosystems. Offered alternate years. Uses critical pedagogies to explore engineering culture and structural inequities within engineering education and practice. Technology, theory, and analysis of processing methods used in integration circuit fabrication. Recommended: CE392 with a minimum grade of C and ST511. Basic spreadsheet functionality needed to create spreadsheet applications for common industrial and manufacturing engineering information processing tasks, including simple databases, statistical analysis, quality control, forecasting, production planning and control, and operations analysis and improvement. Approximation algorithms, randomized and probabilistic algorithms, online algorithms. Provides an overview the strategic planning process from a variety engineering perspective. (Bacc Core Course), Equivalent to: ENGR 331, ENGR 331H, ME331, ME331H, NE 331, NE 331H, NSE331H, Equivalent to: ENGR 331, ENGR 331H, ME331, ME331H, NE 331, NE 331H, NSE331, Equivalent to: ME332, ME332H, NE 332, NE 332H, NSE332H, Equivalent to: ME332, ME332H, NE 332, NE 332H, NSE332. Analyzes conductive, convective and radiative energy transfer using control volume and differential analysis and prediction of transport properties. Engineers must obtain 30 professional development hour (PDH) units during each biennial registration period in order to renew their Oregon professional engineering license. Covers the principles of microbiological methods pertinent to environmental engineers with an emphasis on applications in drinking water treatment, wastewater treatment, and soil remediation. Design and behavior of wood connectors, beams, columns and beam columns. Recommended: MTH112Z and (MTH227 or MTH251) and PH201. Attributes: CPLA Bacc Core, Perspectives, Literature & The Arts. Prerequisite: (ENGR212 with C or better or ENGR212H with C or better) and (MTH256 [C] or MTH256H [C]), Equivalent to: ENGR 311, ENGR 311H, ME311H, NE 311, NE 311H, NSE311, NSE311H, Equivalent to: ENGR 311, ENGR 311H, ME311, NE 311, NE 311H, NSE311, NSE311H. CROSSLISTED as IE285/MFGE285. Forecasting techniques, inventory analysis, master production scheduling, material and capacity requirements, planning and scheduling methods. Provides a general understanding of the production engineering function within industry and the means by which to achieve tight tolerances through machining. Hours Required 30 hours biennially Renewal Dates December 31 of odd-numbered years for licensees with last names beginning with A through F. Analyzes thermomechanical conditions of manufacturing processes; in order to make sure that: first the modeled process is sound from thermomechanical point of view and second, the product is able to function as desired. Wave forces on small and large members, dimensional analyses and scaling of equations, identification and selection of force coefficients for Morison equation; compatibility of wave kinematics and force coefficients in Morison equation, diffraction and radiation of surface gravity waves by large floating bodies, wavemaker problem, and reciprocity relations. Covers mechanisms of human motor systems and control of the neuromusculoskeletal anatomy followed by functional analysis of these system components. Codes of engineering ethics. Applies 3D computer graphics methods to visually understand scientific and engineering data. Apply real-world aircraft component design project with associated deliverables to customer, including basic requirements for Federal Aviation Administration (FAA) certification. A student must also meet the requirements of the Baccalaureate Core and other university degree requirements as outlined in the Catalog. Experience Most states require four years of acceptable, progressive, and verifiable work experience. Ensemble methods. CS161, CS162, CS361), Recommended: Experience with object-oriented programming and data structures (eg. Prerequisite: NSE234 with C or better and NSE235 [C] and NSE481 [C]. Prerequisite: NSE531 with C or better or NSE536 with C or better. Designed for majors in medical physics, radiation health physics, chemistry, pharmacy. Implement digital filtering on micro-processor systems, and apply ANN for image processing in the labs. Engineering is the profession in which knowledge of the mathematical and natural sciences gained through education and practice is applied with judgment to develop ways to economically utilize the materials and forces of nature for the benefit of humankind. Oregon State Board of Examiners for Engineering & Land Surveying Topic will include long characteristic neutron transport, collision probabilities, nodal methods, equivalence theory, and perturbation theory. Theoretical principles of shielding for neutron and gamma radiation; external dosimetry fundamentals for neutrons, photons, and charged particles; applications to problems of practical interest; analytical, numerical, and computer solutions emphasized. Oregon PE Continuing Education Requirements. Introduction to concepts and techniques for developing mobile applications. Recommended: CS101 or computer literacy. An introduction to the management of information systems and their strategic importance in business. Lec/lab. Prerequisite: CHE311 with C or better and (CHE331 [C] or CHE331H [C]). 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. Explores lean concepts. Prerequisite: CH332 with C or better or CH335 with C or better, Recommended: CH231/CH261 and CH232/CH262 and CH233/CH263. Emphasizes contextual learning through collaborative learning with peers and the use of process flow simulation modeling and analysis software. Introduces basic concepts of thermodynamics, by applying the first and second laws of thermodynamics. Reviews metallic oxides, non-stoichiometric semiconductors and associated defect chemistry, electrostatics, linear dielectrics, non-linear dielectrics, electromechanical phenomena including piezoelectricity, and the optical properties of oxides. CROSSLISTED as CS472/ECE472 and CS572/ECE572. An introduction to recent advances in visual recognition, including object detection, semantic segmentation, multimodal parsing of images and text, image captioning, face recognition, and human activity recognition. Rates of dispersion. Engineering design processes for ecological engineering applications, including specifications, performance criteria, timelines, and project logistics, principles and practices of working in engineering teams. Two-phase flow patterns, flow instabilities, condensation induced transients, convective boiling heat transfer, and current topics in reactor safety thermal hydraulics. Prerequisite: ECE322 (may be taken concurrently) with C or better and ENGR203 [C] and (MTH254 [C] or MTH254H [C]) and (MTH256 [C] or MTH256H [C]). Use of design and construction information models for making estimates of quantities and cost, and for determination of constructability problems. Framework for enterprise information systems. Concepts of green building programs, guidelines and specifications will be introduced. USE ADVANCED COURSE SEARCH TOOL >>, OR - Oregon State Board of Examiners for Engineering and Land Surveying. Projects from the area of civil engineering. Prerequisite: (CS162 with C or better or CS162H with C or better or CS 165 with C or better) and (CS225 [C] or MTH231 [C] or MTH231H [C]). Builds techniques for dynamic analysis of electromechanical machines including synchronous reference frame theory, as well as motor control structures and approaches. Recommended: CS331, CS361, ECE353, or other programming experience. Recent advances in industrial engineering pertaining to the theory and application of system studies. and (4)(a) are all outline levels, but An introduction to the key nuclear regulatory agencies; major nuclear legislation; current radiation protection standards and organizations responsible for their implementation. Focus on processing-structure-property relationships. Prerequisite: ENGR202 with C or better and (ME312 [C] or ME312H [C] or NSE312 [C] or NSE312H [C]), Equivalent to: ESC497, IE 497, ME 497, MIME497, Equivalent to: ESC498, IE 498, ME 498, MIME498. Prerequisite: CS344 with C or better and CS370 [C]. Through nearly 30 unique degree programs at the graduate and undergraduate level, we produce top-notch engineers who are grounded in integrity, ingenuity, and a keen understanding of the inter-relatedness of global economies, cultures, and natural systems. Prioritize and balance competing criteria that addresses lighting requirements for the visual experience (e.g., vision, visual comfort, psychological reinforcement, color quality) and human health, while accounting for energy use and complying with compulsory standards. Lec/Studio. Material balances, thermophysical, and thermochemical calculations. Prerequisite: ENVE541 with C+ or better. Advanced concepts in computer architecture. Entity-relationship model. Examines the analysis of repeated games, myopic learning, fictitious play, and evolutionary games. Prerequisite: (CH123 with C or better or CH233 with C or better or CH233H with C or better) and (CH440 [C] or CHE331 [C] or CHE331H [C]) and (ENVE321 [C] or ENVE322 [C]) and ENVE421 [C]. Major topics include probability models for space planning, Poisson arrival processes, discrete and continuous time Markov chain models of machine cycle times, and queuing models applied to various industrial systems. Prerequisite: ENGR390 with C or better or ENGR391 with C or better or ENGR391H with C or better. Prerequisite: NSE236 with C or better and (MTH256 [C] or MTH256H [C]). Theoretical concepts and industry practices used to model, evaluate, and improve construction worker safety through the design of the project features, construction operations, and site safety program elements. Oregon Engineer Continuing Education | Oregon PE PDH - Red Vector Prerequisite: BIOE457 with C or better and BIOE462 [C]. Prerequisite: ME382 with C or better or ME382H with C or better. Provides a first review of basic probability and statistical inference concepts and methods relevant for engineering managers. Structural engineer registration for performing engineering services on significant structures. Issues involved in the design of instruction set architecture, processor, pipelining and memory organization. Analyzes and designs phase-locked loop (PLL) architectures and circuits for communication systems. Covers how to go about designing, preparing for, running, analyzing, and writing-for-publication lab experiments of programming situations involving human subjects. Major topics will include solution of ODEs and systems of ODEs, root finding techniques and numerical integration and differentiation. Previous course experiences beyond Matlab and Excel programming (e.g. Proper experimental methods, data and uncertainty analyses related to thermal and fluids measurements are discussed. A critical examination of topics selected by the instructor from among topics not covered in other environmental engineering courses. Establishes design criteria, employs computer-based calculations as a verification tool, and creates solutions compliant with compulsory standards. Guided design of wave gauge facility at Coos Bay, Oregon, that requires synthesizing fluid mechanics, structural design and foundation design. Introduces the use of CAD/CAE tools, design management, and design methodology. Introduces collaborative software development of larger, object-oriented systems. Identifying key characteristics for consumers and implications for design, development, marketing, business, and sustainability. Topics of interest in algorithms and theory of computation. Please use the online CPD form in your MyOSBEELS account. Prerequisite: ENGR213 with C or better or ENGR213H with C or better. Theory and physical principles of bipolar junction and field-effect transistors. Prerequisite: (BA360 (may be taken concurrently) with C or better or ENGR390 (may be taken concurrently) with C or better) and (ME311 [C] or ME311H [C] or NSE311 [C] or NSE311H [C]). Illustrates topics covered in the lectures of ECE271 using computer-aided design, verification tools, and prototyping hardware. Students may choose engineering majors from biological, chemical, civil, ecological, electrical and computer, environmental, industrial, manufacturing, mechanical, and nuclear engineering. Probabilistic agents. Applies modern Finite Element Analysis (FEA) software to the design of mechanical components, and development of the underlying theoretical and computational approach. Radioactivity; radioactive decay modes; decay kinetics, interaction of neutrons with matter; nuclear reactions; fission and fusion basics; cross sections. CROSSLISTED as ME332/NSE332. Apply basic programming in LabVIEW software to support the operation of data sampling through a data acquisition card. Prerequisite: ENGR248 with C or better and (IE255 [C] or ST314 [C]), The idea of responsibility and the ethical responsibilities of the engineer. Prerequisite: ESE497 with C or better or IE 497 with C or better or ME 497 with C or better or MIME497 with C or better, Equivalent to: ESE498, IE 498, ME 498, MIME498. Content curation, merchandising and communication. Utilizes engineering methodologies in a team environment to develop real-world solutions to an engineering problem. Semiconductor fundamentals and physical principles of pn junctions and Schottky barrier diodes. Prerequisite: CE373 with C or better or FE316 with C or better. Applies machine learning and data mining techniques to real problems with programming assignments and written homework assignments. Examines the relationship of Gibbs free energy to phase stability. Explores the thermodynamics of macromolecules (including proteins and DNA). Course content includes project baselining, risk definition and identification, risk assessment and management techniques, risk control, risk response, and risk management. Use of engineering analyses and sustainable principles to design projects and minimize their environmental impact. Lec/lab. An introduction to numerical modeling of the nearshore ocean, providing hands-on experience with state-of-the-art numerical models for wave propagation, nearshore circulation, planform shoreline evolution and bathymetric profile evolution. Considers quality control and FDA regulations. Registrants must obtain 30 professional development hour (PDH) units during each biennial registration period. Prerequisite: (ENGR103 with C or better or ENGR103H with C or better) and (MTH254 [C] or MTH254H [C]). An introduction to the concepts and algorithms in deep learning; basic feedforward neural networks, convolutional neural networks, recurrent neural networks including long short-term memory models, deep belief nets, autoencoders and deep networks applications in computer vision, natural language processing and reinforcement learning. How to create and promote a dynamic website using existing frameworks/libraries: Designing, developing, publishing, maintaining, and marketing dynamic websites; web security and privacy issues; emerging web technologies; running a website marketing campaign. Energetics kinetics and stoichiometry of microbial transformations of organic and inorganic compounds. Lec/lab. Engineering as value creation and the ethical ramifications of engineering. Critical issues in the management of engineering and high-technology projects are discussed. To graduate with a baccalaureate degree in any of the engineering or computer science majors, a student must complete 181 credits. The goal of the class is to take students with different backgrounds (mechanical engineering, computer science, electrical engineering, physics, etc.) Stability theory and applications, with emphasis on design of steel structures. Learning a second computer programming language. Provides an introduction and overview of material science challenges and considerations for the construction and long-term operation of power plants, with an emphasis on nuclear power plants. Current design practices in space systems engineering will be emphasized. Prerequisite: ME312 with C or better or ME312H with C or better or NSE312 with C or better or NSE312H with C or better. Effective data management procedures. Nuclear threats are balanced with the past history of nuclear weapons use, current nonproliferation technology, and the future international growth of the nuclear industry. Students should have completed ALL other required courses in their degree program prior to registering for this course. Basic principles of reinforced concrete design; strength, stability, and serviceability criteria; design of reinforced concrete members for flexure and shear. Develops skills for project development, including project planning, requirements analysis, design, coding, testing, configuration management, quality assurance, documentation, and delivery. Lec. Fundamentals of mammalian cell biology, with an emphasis on biomedical applications and engineering approaches to study and manipulate cells and tissues. Virtual work principles. Recognizes professional responsibilities and makes informed judgments in cybersecurity practice based on legal and ethical principles. Applies fundamentals of classical thermodynamics to analyze steady-state and transient problems, including phase and chemical equilibrium. Emphasizes problem-solving, critical thinking, innovative application of curriculum knowledge, ethical considerations, and written and oral communication skills. Covers various network centralities, topological measures, clustering algorithms, probabilistic annotation models and inference methods. Linear dynamic systems theory and modeling. Prerequisite: ME316 (may be taken concurrently) with C- or better. Emphasis on linkages to such advanced manufacturing systems as cellular manufacturing, flexible manufacturing, JIT, Lean, and ERP. Recommended: (CS372 or ECE372) and (ECE353 or ST314). Emphasizes recognition of design as a process, not a product, including the roles of divergent thinking and iteration. Prerequisite: CCE207 with C or better or CEM407 with C or better. Propositional logic. Theory, planning, analysis, and design of hydraulic structures. An introduction to the concepts found in a variety of programming languages. Teaches basic computational thinking and programming skills which will allow students to solve a variety of real-world problems. Oregon Engineering Firm License | Harbor Compliance | www