Our Department has been at the center of the revolution in understanding the nature of matter and energy and the dynamics of the cosmos. Our faculty - three of whom hold Nobel Prizes and 21 of whom are members of the National Academy of Sciences - include leaders in nearly every major area of physics. World leaders in science and engineering, including 10 Nobel Prize recipients, have been educated in the physics classrooms and laboratories at MIT.
Electricity and Electronics Course Offerings Electricity and Electronics Course Offerings This lists provides you with the most up-to-date listing of the courses offered, course descriptions and prerequisites. If you have specific questions about any of these classes, please contact the Electricity coursework for further information.
Topics include basic electricity, electrical math, National Electrical Code, use of hand tools, electrical materials, wiring techniques and safety. This course is also delivered in Modules. You must complete each of the modules listed below, in order to receive full credit for the EL course.
EL A Basic Electrical Skills Module A -An introduction to Electricity coursework basic knowledge required by a field electrician including safety rules, applicable electrical codes, trade math, and electrical theory.
EL B Basic Electrical Skills Module B - An introduction to the common materials used by electricians or electrical maintenance personnel for the installation of electrical systems as well as the various types of electrical installations, blueprint reading, and circuits.
Examples and exercises explicitly involve applications in these areas for engineering and scientific notation, algebraic expressions, fractions, linear and quadratic equations, exponents, logarithms, and trigonometric functions.
It includes electric and electronic components, circuits, and devices. Basic applications show the use of these components and devices. You must complete each of the modules listed below in order to receive credit for the course. EL A Basic Electricity and Electronics Module A - Basic introduction in electricity, terms and function of direct current circuits and power sources.
This is part one of a three part course. Includes magnetism and magnetic devices, as well as AC circuit considerations. This course covers basic semi-conductor theory and their applications.
This course reviews the different types of electrical prints, concentrating on Electrical Schematics Ladder Diagrams. In addition, other nationally recognized electrical safety standards as required by OSHA are covered.
This includes electrical safety, workplace safety, using tools, wiring circuits, programming micro controllers, soldering, residential wiring, sensors, pushbutton, relays, and the fabrication of an electronic system. Emphasis is placed on basic theory and the application of programmable logic controllers.
Some hands-on programming of PLCs is utilized. Topics include; principles and application of single and three phase transformers; DC generators and motors; AC generators and single phase and three phase AC motors; motor installations and nameplate data, and AC drives.
Students must successfully complete all three 3 modules, in sequence, to achieve full course credit. EL B is part two of a three-part course. This course covers single and three phase transformers, auto-transformers, DC Motors and Generators.
EL C is the last of the three part course. This course covers AC motors, AC drives and special motors. It includes ammeters, voltmeters, ohmmeters, bridge circuits, and the oscilloscope, as well as measurement of current, voltage, resistance, impedance, power, frequencies, capacity, inductance, strain, light, heat and sound.
A final project is required. Application of digital circuits is emphasized. This course uses assembly language and machine code for programming, and covers how microcontrollers work on the "inside" and how interfaces can be connected.
Electronic circuits and systems related to clinical medical equipment are studied.
Students utilize sensor substitution, test equipment, transducers, and computers to find faults or errors in medical equipment. Codes and standards concerning calibration and testing of biomedical equipment are also reviewed.
Students apply operation, process, sequencing, and programming skills to individual automation production machines and to complete automation production systems.ELECTRONICS COURSE OUTLINE (Print this Page.) Then go HERE.
This is the BEST basic electronics course on the internet. Why? Because it is organized so you can select your areas of . Wood & Water. Most problems encountered with wood or wood products, involve water or moisture content.
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Award-winning tutorials, tips and advice on electricity. For GCSE physics coursework and exams, and students, parents and teachers. Electrical Engineering and Computer Science (EECS) spans a spectrum of topics from (i) materials, devices, circuits, and processors through (ii) control, signal processing, and systems analysis to (iii) software, computation, computer systems, and networking.
The University of Arizona (UA) is the flagship institution in the State of Arizona and offers graduate programs in more than areas of study. Graduate programs of study are described here in our Graduate Catalog and Program Descriptions.
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