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Click on the name of an online engineering undergraduate course to view the detailed information; you can also find out about the college or university offering the category by clicking on "School's Profile". |
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Name (Section Id) |
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Program |
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Degree |
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Name of College, University |
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School's Profile |
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Electronic Communications Lab (EE118) |
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Engineering |
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Grantham University |
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Details |
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This course is the lab component for EE126. Using Electronics Workbench. software, the student will gain a complete understanding of electronic communication circuits and how they operate. Topics include oscillator circuits, amplitude modulation, AM receivers, phase-locked loop, single sideband applications, frequency modulation, FM systems and receivers. |
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Electronic Devices and Circuits (EE120) |
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Engineering |
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Grantham University |
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Details |
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This introductory course into the world of electronics takes the approach that ?electronics is an art as well as a science?. Basic concepts about electronics as well as electronics history are covered. Topics include semiconductors, diode theory and circuits, bipolar transistors, transistor biasing, transistor fundamentals, amplifiers, FETs, emitter follower, oscillators and op-amps. |
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Electronics I Lab (EE155) |
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Engineering |
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Grantham University |
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Details |
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This course is designed for the student who understands basic electronics theory and wants to learn more about electronic devices and measurement techniques to verify theoretical knowledge. This course explains basic measurement theory and how it relates to practical measurements using Electronics Workbench. software. The course makes extensive use of circuit models or "black boxes" to explain circuit behavior. This circuit model approach reduces the amount of detail that must be remembered and understood. Topics include Thevenin and Norton theorems, diodes, rectifiers, zener diodes, NPN transistors, and common emitter circuits, biasing transistors, voltage amplifiers and multistage circuits. |
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Electronics II Lab (EE122) |
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Engineering |
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Grantham University |
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Details |
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A continuation of EE155. Topics include PNP transistors, JFET transistor biasing and amplifiers, frequency response, coupling and bypass capacitors, power and voltage gains, differential amplifiers, open and closed loop voltage gains, Schmitt trigger, and oscillators. |
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Elements of Building Construction (0608-422) |
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Engineering |
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Roosevelt University |
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Details |
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Elements and details of building construction, both residential and commercial, are explored. The course does not focus on design, but rather on specific building components, and on how these components work together to create a functional building. Some of the topics include: foundations, wood light frame, heavy timber frame, steel, concrete, masonry, glass, roofing, curtain wall systems, and interior finishes. The role of building codes in design and construction is introduced. |
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Elements of Service Mgt: Systems Approach (0625-750) |
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Engineering |
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U |
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Roosevelt University |
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Details |
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General Systems Theory is used to examine the major components of the service industry. The interactions and interdependencies of these components are discussed within the framework of developing a service management strategy to insure service quality. |
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Embedded Microprocessor Systems (EET-387) |
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Engineering |
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DeVry University Online |
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Details |
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In this course students explore hardware and software to analyze and design an embedded microprocessor system. Microcontroller and computer-aided tools are used for designing systems, and practical debugging and troubleshooting methods are emphasized. |
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Embedded Microprocessor Systems Lab (EET-387L) |
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Engineering |
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DeVry University Online |
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Details |
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In this lab students construct, test and debug the microprocessor/microcontroller system designed in EET-387. Proper documentation is emphasized. |
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Emergency Operations (0634-481) |
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Engineering |
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Roosevelt University |
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Details |
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Roles of fire, police, EMS, and volunteer agencies like the Red Cross on disaster sites. Also, command posts and off-site operations centers, the Incident Command System, and how to critique incidents. |
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Engineering Economics (0617-436) |
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Engineering |
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Roosevelt University |
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Details |
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A study of techniques required to make economic decisions. Topics covered in the course include cash flow analysis, present worth analysis, annual worth analysis, rate of return evaluations, benefit cost analysis, break even analysis, replacement analysis, bonds, the effect of tax on cash flows, and sensitivity analysis. |
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Ergonomic Fundamentals (0303-413) |
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Engineering |
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U |
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Roosevelt University |
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Details |
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Physiological and biomechanical aspects of human performance. The human capacity for physical work and human anthropology is studied to enable the student to design work places, processes, products and procedures that are consistent with human capabilities and limitations. A systems approach to design is emphasized. Topics include repetitive motion disorders, manual materials handling, hand tool design and selection, as well as current OSHA requirements. No prerequisites. Course restricted to students in the Safety Technology (IEMS, IEMX) programs only. Engineering students cannot register for this course. |
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Financial and Managerial Accounting (MET AC 630) |
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Engineering |
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Boston University |
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Details |
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Introduction to the concepts, methods, and problems of financial and managerial accounting. Includes data accumulation, accounting principles, financial statement analysis, measurement and disclosure issues, cost analysis, budgeting and control, production costs, and standard costs. |
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Financial Management (MET FI 631) |
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Engineering |
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Boston University |
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Details |
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Prereq: MET AC 630 The course emphasizes issues of accounting, finance, and economics that are important in most management contexts. Stresses understanding financial statements, planning and control, cost and benefit evaluation, cash flow analysis, and capital budgeting. |
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Fire Protection (0633-401) |
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Engineering |
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Roosevelt University |
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Details |
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Introduces fundamental concepts in protection of industrial workers and property from fire and explosion. Fire chemistry, control of ignition sources in industry, and properties of combustible materials are discussed. Fire detection and extingishment are covered along with building construction for fire prevention, life safety, fire codes and related topics. Engineering Technology and Safety Technology students only or permission of department. |
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Fundamental Concepts in Electronics Technology (EE111) |
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Engineering |
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Grantham University |
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Details |
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This course presents an excellent starting point for the electrical/electronics student. Mathematical concepts are introduced in conjunction with electronics problems, providing a rich learning environment. Topics include electrical principles, mathematics in electronics, series/parallel circuits, number systems, basic algebraic problem-solving techniques, mathematical functions and graphs. |
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Fundamental Properties of AC Circuits (EE112) |
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Engineering |
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Grantham University |
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Details |
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This course is a continuation of EE111. The student is introduced to the concepts of magnetism, inductive and capacitive reactance, phase-angle calculations, AC power, LC resonance, power factor, power transfer, and transformer theory. |
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Global Standards in Service Industries (0621-320) |
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Engineering |
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Roosevelt University |
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Details |
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Globalization of commerce carries with it increasing global standards. This course examines different kinds of standards, especially those related to international trade and commerce. Students are expected to identify situations in which standards are mandated, identify the relevant standards, and then describe the applications of the appropriate standards. The course also looks at current issues and emerging trends in standards. Credit 4. |
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Implementing Total Quality (0684-430) |
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Engineering |
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Roosevelt University |
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Details |
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Theory and techniques for introducing and institutionalizing quality management concepts and practices in all areas of organizational activity. Includes fundamental principles of organizational development, model programs for improving quality throughout the organization, and techniques for analyzing organizational culture and identifying and remediating barriers to quality management. Introduces benchmarking and identifying and translating customer requirements as the foundations of the implementation process. |
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Industrial Management (EM 501) |
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Engineering |
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New Jersey Institute of Technology |
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Details |
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Prerequisite: approval from the engineering management graduate advisor or program director. Operational aspects of management techniques: organization, product design and development, distribution logistics, marketing, plant location and layout, materials handling, production planning and control, inventory control, quality control, work analysis, and incentive plans. |
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Industrial Process Controls (EET-325) |
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Engineering |
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DeVry University Online |
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Details |
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This course focuses on automation and process controls employing programmable logic controllers (PLCs). Applications address selection of hardware including processor architecture, input/output (I/O) module wiring, programming, system design and implementation. Proportional integral derivative (PID) control and tuning for optimizing applications are explored. Topics in statistical process control and plant floor communication architectures such as the Ethernet, Data Highway and DeviceNet in industrial networks are also included. |
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