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object:Electrical Engineering
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now begins generated list of local instances, definitions, quotes, instances in chapters, wordnet info if available and instances among weblinks


OBJECT INSTANCES [0] - TOPICS - AUTHORS - BOOKS - CHAPTERS - CLASSES - SEE ALSO - SIMILAR TITLES

TOPICS
SEE ALSO


AUTH

BOOKS

IN CHAPTERS TITLE

IN CHAPTERS CLASSNAME

IN CHAPTERS TEXT
1.03_-_Time_Series,_Information,_and_Communication
3-5_Full_Circle

PRIMARY CLASS

subject
SIMILAR TITLES
Electrical Engineering

DEFINITIONS


TERMS STARTING WITH


TERMS ANYWHERE

Berkeley EDIF200 ::: translator-building toolkitWendell C. Baker and Prof A. Richard Newton of the Electronics Research Laboratory, Department of Electrical Engineering and Computer Sciences at the University of California, Berkeley.Version 7.6. Restriction: no-profit without permission. . (1990-07-01)

Berkeley EDIF200 translator-building toolkit Wendell C. Baker and Prof A. Richard Newton of the Electronics Research Laboratory, Department of Electrical Engineering and Computer Sciences at the {University of California, Berkeley}. Version 7.6. Restriction: no-profit without permission. {(ftp://ic.berkeley.edu/pub/edif)}. (1990-07-01)

bus "architecture, networking" A set of electrical conductors (wires, PCB tracks or connections in an {integrated circuit}) connecting various "stations", which can be {functional units} in a computer or {nodes} in a {network}. A bus is a {broadcast} channel, meaning that each station receives every other station's transmissions and all stations have equal access to the bus. Various schemes have been invented to solve the problem of collisions: multiple stations trying to transmit at once, e.g. {CSMA/CD}, {bus master}. The term is almost certainly derived from the electrical engineering term "bus bar" - a substantial, rigid power supply conductor to which several connections are made. This was once written "'bus bar" as it was a contraction of "omnibus bar" - a connection bar "for all", by analogy with the passenger omnibus - a conveyance "for all". {More on derivation (/pub/misc/omnibus.html)}. There are busses both within the {CPU} and connecting it to external {memory} and {peripheral} devices. The data bus, address bus and control signals, despite their names, really constitute a single bus since each is useless without the others. The width of the data bus is usually specified in {bits} and is the number of parallel connectors. This and the {clock rate} determine the bus's data rate (the number of {bytes} per second which it can carry). This is one of the factors limiting a computer's performance. Most current {microprocessors} have 32-bit busses both internally and externally. 100 or 133 {megahertz} bus clock rates are common. The bus clock is typically slower than the processor clock. Some processors have internal busses which are wider than their external busses (usually twice the width) since the width of the internal bus affects the speed of all operations and has less effect on the overall system cost than the width of the external bus. Various bus designs have been used in the {PC}, including {ISA}, {EISA}, {Micro Channel}, {VL-bus} and {PCI}. Other peripheral busses are NuBus, TURBOchannel, VMEbus, MULTIBUS and STD bus. See also {bus network}. {Ukranian (http://open-taxi.com/mynews/~adrian/10)}. (2010-07-10)

bus ::: (architecture) One of the sets of conductors (wires, PCB tracks or connections in an integrated circuit) connecting the various functional units in despite their names, really constitute a single bus since each is useless without the others.The width of the data bus, i.e. the number of parallel connectors, and its clock rate determine its data rate (the number of bytes per second which it can or 133 megahertz bus clock rates are common. The bus clock is typically slower than the processor clock.Some processors have internal busses which are wider than their external busses (usually twice the width) since the width of the internal bus affects the speed of all operations and has less effect on the overall system cost than the width of the external bus.Various bus designs have been used in the PC, including ISA, EISA, Micro Channel, VL-bus and PCI. Other peripheral busses are NuBus, TURBOchannel, VMEbus, MULTIBUS and STD bus.Some networks are implemented as a bus at the physical layer, e.g. Ethernet - a one-bit bus operating at 10 (or later 100) megabits per second.The term is almost certainly derived from the electrical engineering term bus bar - a substantial, rigid power supply conductor to which several connections bar - a connection bar for all, by analogy with the passenger omnibus - a conveyance for all. .(2000-03-20)

cybernetics "robotics" /si:`b*-net'iks/ The study of control and communication in living and man-made systems. The term was first proposed by {Norbert Wiener} in the book referenced below. Originally, cybernetics drew upon electrical engineering, mathematics, biology, neurophysiology, anthropology, and psychology to study and describe actions, feedback, and response in systems of all kinds. It aims to understand the similarities and differences in internal workings of organic and machine processes and, by formulating abstract concepts common to all systems, to understand their behaviour. Modern "second-order cybernetics" places emphasis on how the process of constructing models of the systems is influenced by those very systems, hence an elegant definition - "applied epistemology". Related recent developments (often referred to as {sciences of complexity}) that are distinguished as separate disciplines are {artificial intelligence}, {neural networks}, {systems theory}, and {chaos theory}, but the boundaries between those and cybernetics proper are not precise. See also {robot}. {The Cybernetics Society (http://cybsoc.org)} of the UK. {American Society for Cybernetics (http://asc-cybernetics.org/)}. {IEEE Systems, Man and Cybernetics Society (http://isye.gatech.edu/ieee-smc/)}. {International project "Principia Cybernetica" (http://pespmc1.vub.ac.be/DEFAULT.html)}. ["Cybernetics, or control and communication in the animal and the machine", N. Wiener, New York: John Wiley & Sons, Inc., 1948] (2002-01-01)

cybernetics ::: (robotics) /si:`b*-net'iks/ The study of control and communication in living and man-made systems.The term was first proposed by Norbert Wiener in the book referenced below. Originally, cybernetics drew upon electrical engineering, mathematics, biology, processes and, by formulating abstract concepts common to all systems, to understand their behaviour.Modern second-order cybernetics places emphasis on how the process of constructing models of the systems is influenced by those very systems, hence an elegant definition - applied epistemology.Related recent developments (often referred to as sciences of complexity) that are distinguished as separate disciplines are artificial intelligence, neural networks, systems theory, and chaos theory, but the boundaries between those and cybernetics proper are not precise.See also robot. of the UK. . . .Usenet newsgroup: .[Cybernetics, or control and communication in the animal and the machine, N. Wiener, New York: John Wiley & Sons, Inc., 1948](2002-01-01)

D. C. Power Lab ::: The former site of SAIL. This name was very funny because the obvious connection to electrical engineering was nonexistent - the lab was named after a Donald C. Power. Compare Marginal Hacks.[But did DCP's parents realise the joke?][Jargon File]

D. C. Power Lab The former site of {SAIL}. This name was very funny because the obvious connection to electrical engineering was nonexistent - the lab was named after a Donald C. Power. Compare {Marginal Hacks}. [But did DCP's parents realise the joke?] [{Jargon File}]

Institute of Electrical and Electronics Engineers, Inc. (IEEE) The world's largest technical professional society, based in the USA. Founded in 1884 by a handful of practitioners of the new electrical engineering discipline, today's Institute has more than 320,000 members who participate in its activities in 147 countries. The IEEE sponsors technical conferences, symposia and local meetings worldwide, publishes nearly 25% of the world's technical papers in electrical, electronics and computer engineering and computer science, provides educational programs for its members and promotes standardisation. Areas covered include aerospace, computers and communications, biomedical technology, electric power and consumer electronics. {(http://ieee.org/)}. {Gopher (gopher://gopher.ieee.org/)}. {(ftp://ftp.ieee.org/)}. E-mail file-server: "fileserver-help@info.ieee.org". { IEEE Standards Process Automation (SPA) System (http://stdsbbs.ieee.org/)}, {telnet (telnet:stdsbbs.ieee.org)} [140.98.1.11]. (1995-03-10)

Institute of Electrical and Electronics Engineers, Inc. ::: (IEEE) The world's largest technical professional society, based in the USA. Founded in 1884 by a handful of practitioners of the new electrical engineering standardisation. Areas covered include aerospace, computers and communications, biomedical technology, electric power and consumer electronics. . . .E-mail file-server: . , (1995-03-10)

John Vincent Atanasoff "person" John Vincent Atanasoff, 1903-10-04 - 1995-06-15. An American mathemetical physicist, and the inventor of the electronic {digital computer}. Between 1937 and 1942 he built the {Atanasoff-Berry Computer} with {Clifford Berry}, at the {Iowa State University}. Atanasoff was born on 1903-10-04 in Hamilton, New York. In 1925, he got a Bachelor of Science degree in Electrical Engineering from the University of Florida. In 1926 he received a Master's degree in Maths from Iowa State University. He received a PhD as a theoretical physicist from the University of Wisconsin in 1930. While an associate professor of mathematics and physics at Iowa State University, Atanasoff began to envision a {digital} computational device, believing {analogue} devices to be too restrictive. Whilst working on his electronic {digital computer}, Atanasoff was introduced to a graduate student named {Clifford Berry}, who helped him build the {computer}. The first prototype of the {Atanasoff-Berry Computer} was demonstrated in December 1939. Although no patent was awarded for the new {computer}, in 1973 US District Judge Earl R. Larson declared Atanasoff the inventor of the digital computer (declaring the {ENIAC} patent invalid). Atanasoff was awarded the National Medal of {Technology} by US President Bush on 1990-11-13. He died following a stroke on 1995-06-15. {John Vincent Atanasoff and the Birth of the Digital Computer (http://cs.iastate.edu/jva/jva-archive.shtml)}. ["Atanasoff Forgotten Father of the Computer", C. R. Mollenhoff, Iowa State University Press 1988]. (2001-10-03)

John Vincent Atanasoff ::: (person) John Vincent Atanasoff, 1903-10-04 - 1995-06-15. An American mathemetical physicist, and the inventor of the electronic digital computer. Between 1937 and 1942 he built the Atanasoff-Berry Computer with Clifford Berry, at the Iowa State University.Atanasoff was born on 1903-10-04 in Hamilton, New York. In 1925, he got a Bachelor of Science degree in Electrical Engineering from the University of University. He received a PhD as a theoretical physicist from the University of Wisconsin in 1930.While an associate professor of mathematics and physics at Iowa State University, Atanasoff began to envision a digital computational device, electronic digital computer, Atanasoff was introduced to a graduate student named Clifford Berry, who helped him build the computer.The first prototype of the Atanasoff-Berry Computer was demonstrated in December 1939. Although no patent was awarded for the new computer, in 1973 US District Judge Earl R. Larson declared Atanasoff the inventor of the digital computer (declaring the ENIAC patent invalid).Atanasoff was awarded the National Medal of Technology by US President Bush on 1990-11-13. He died following a stroke on 1995-06-15. .[Atanasoff Forgotten Father of the Computer, C. R. Mollenhoff, Iowa State University Press 1988].(2001-10-03)

speech recognition ::: An interdisciplinary subfield of computational linguistics that develops methodologies and technologies that enables the recognition and translation of spoken language into text by computers. It is also known as automatic speech recognition (ASR), computer speech recognition or speech to text (STT). It incorporates knowledge and research in the linguistics, computer science, and electrical engineering fields.

University of Twente ::: (body, education) A university in the east of The Netherlands for technical and social sciences. It was founded in 1961, making it one of the Computer Science; Electrical Engineering; Mechanical Engineering; Philosophy of science, Technology and Society; Educational Technology. . (1995-04-16)

University of Twente "body, education" A university in the east of The Netherlands for technical and social sciences. It was founded in 1961, making it one of the youngest universities in The Netherlands. It has 7000 students studying Applied Educational Science; Applied Mathematics; Applied Physics; Chemical Technology; Computer Science; Electrical Engineering; Mechanical Engineering; Philosophy of science, Technology and Society; Educational Technology. {(http://nic.utwente.nl/uthomuk.htm)}. (1995-04-16)

Vannevar Bush "person" Dr. Vannevar Bush, 1890-1974. The man who invented {hypertext}, which he called {memex}, in the 1930s. Bush did his undergraduate work at Tufts College, where he later taught. His masters thesis (1913) included the invention of the Profile Tracer, used in surveying work to measure distances over uneven ground. In 1919, he joined {MIT}'s Department of Electrical Engineering, where he stayed for twenty-five years. In 1932, he was appointed vice-president and dean. At this time, Bush worked on optical and photocomposition devices, as well as a machine for rapid selection from banks of microfilm. Further positions followed: president of the Carnegie Institute in Washington, DC (1939); chair of National Advisory Committee for Aeronautics (1939); director of Office of Scientific Research and Development. This last role was as presidential science advisor, which made him personally responsible for the 6,000 scientists involved in the war effort. During World War II, Bush worked on radar antenna profiles and the calculation of artillery firing tables. He proposed the development of an {analogue computer}, which later became the {Rockefeller Differential Analyser}. Bush is the pivotal figure in hypertext research. His ground-breaking 1945 paper, "As We May Think," speculated on how a machine might be created to assist human reasoning, and introduced the idea of an easily accessible, individually configurable storehouse of knowledge. This machine, which he dubbed "memex," in various ways anticipated {hypermedia} and the {World Wide Web} by nearly half a century. {Electronic Labyrinth article (http://jefferson.village.virginia.edu/elab/hfl0034.html)}. {Bush's famous article, "As We May Think" (http://theatlantic.com/unbound/flashbks/computer/bushf.htm)}. (2001-06-17)



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   2 Norbert Wiener
   2 Nikola Tesla
   2 Koichi Tanaka

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1:Computer science was then generally a subdepartment of electrical engineering, ~ Ellen Ullman,
2:In 1978, I entered Tohoku University, into the Department of Electrical Engineering, Faculty of Technology. ~ Koichi Tanaka,
3:It is a simple feat of scientific electrical engineering — only expensive — blind, faint-hearted, doubting world. ~ Nikola Tesla,
4:ENIAC (electronic numerical integrator and calculator) developed by John Mauchly and J. Presper Eckert at the Moore School of Electrical Engineering, University of Pennsylvania, soon followed. ~ Anonymous,
5:I suppose the reason I chose electrical engineering was because I had always been interested in electricity, involving myself in such projects as building radios from the time I was a child. ~ Koichi Tanaka,
6:I wanted to further my education, so I went on to get a Ph.D. in electrical engineering and came back and served about ten years in the Canadian Navy as what we call a combat systems engineer. ~ Marc Garneau,
7:Whether you're studying electrical engineering or poetry, college is not about maximizing income, it's about becoming a better and more informed observer of the universe. And for me, at least, that what's leads to a more fulfilling life. ~ John Green,
8:Computer science is neither mathematics nor electrical engineering. ~ Alan Perlis (1968) title of article "Computer Science is neither Mathematics nor Electrical Engineering" in: A. Finerman (Hg.), University Education in Computing Science, New York, London, pp. 69-77,
9:There are fields of scientific work...which have been explored from the different sides of pure mathematics, statistics, electrical engineering, and neurophysiology...in which every single notion receives a separate and different name from each group, and in which important work has been triplicated or quadruplicated, while still other important work is delayed by the unavailability in one field of results that may have already become classical in the next field. ~ Norbert Wiener,
10:By 1905, Tesla ran out of money and was forced to lay off the Wardenclyffe workers and shut down the facility. Newspapers decried it as his “million dollar folly,” to which Tesla responded, “It is a simple feat of scientific electrical engineering, only expensive ... blind, faint-hearted doubting world.” His malaise couldn’t snuff his imagination and love of his work, however. He refocused his efforts on commercially viable machinery and—in 1906, on his 50th birthday—presented a 200-horsepower bladeless turbine ~ Sean Patrick,
11:I was born into a working class Irish Catholic family at the brutal bottom of the Great Depression. I suppose this early imprinting and conditioning made me a life-long radical. My education was mostly scientific, majoring in electrical engineering and applied math. Those imprints made me a life-long rationalist. I have become increasingly skeptical about, or detached from, the assumption that radicalism and rationalism are the only correct perspectives with which to view life, but they remain my favorite perspectives. ~ Robert Anton Wilson,
12:Not long after the book came out I found myself being driven to a meeting
by a professor of electrical engineering in the graduate school I of MIT. He said that after reading the book he realized that his graduate students were using on him, and had used for the ten years and more he had been teaching there, all the evasive strategies I described in the book — mumble, guess-and-look, take a wild guess and see what happens, get the teacher to answer his own questions, etc.

But as I later realized, these are the games that all humans play when others
are sitting in judgment on them. ~ John Holt,
13:The new players in the financial markets, the kingpins of the future who had the capacity to reshape those markets, were a different breed: the Chinese guy who had spent the previous ten years in American universities; the French particle physicist from Fermilab; the Russian aerospace engineer; the Indian PhD in electrical engineering. “There were just thousands of these people,” said Schwall. “Basically all of them with advanced degrees. I remember thinking to myself how unfortunate it was that so many engineers were joining these firms to exploit investors rather than solving public problems. ~ Michael Lewis,
14:Finance is concerned with the relations between the values of securities and their risk, and with the behavior of those values. It aspires to be a practical, like physics or chemistry or electrical engineering. As John Maynard Keynes once remarked about economics, “If economists could manage to get themselves thought of as humble, competent people on a level with dentists, that would be splendid.” Dentists rely on science, engineering, empirical knowledge, and heuristics, and there are no theorems in dentistry. Similarly, one would hope that nance would be concerned with laws rather than theorems, with behavior rather than assumptions. One doesn’t seriously describe the behavior of a market with theorems. ~ Emanuel Derman,
15:It is not a dream, it is a simple feat of scientific electrical engineering, only expensive — blind, faint-hearted, doubting world! [...] Humanity is not yet sufficiently advanced to be willingly led by the discoverer's keen searching sense. But who knows? Perhaps it is better in this present world of ours that a revolutionary idea or invention instead of being helped and patted, be hampered and ill-treated in its adolescence — by want of means, by selfish interest, pedantry, stupidity and ignorance; that it be attacked and stifled; that it pass through bitter trials and tribulations, through the strife of commercial existence. So do we get our light. So all that was great in the past was ridiculed, condemned, combatted, suppressed — only to emerge all the more powerfully, all the more triumphantly from the struggle." – Nikola Tesla (at the end of his dream for Wardenclyffe) ~ Nikola Tesla,
16:us, Will had invited his camp counselor buddy, Dylan, and Dylan had brought along his roommate, this annoying kid named Sanjay. I mean, it wasn’t like there was anything wrong with Sanjay, and no, I’m not prejudiced against Indian people or anyone else. It was just awkward. The rest of us were jocks and hard partiers, and Sanjay was a skinny nerd who looked like he was about twelve years old. And that’s fine, you know? Go ahead and be a nerd if that’s what makes you happy. Go design your app or whatever. Just don’t ask me to give a shit. “Sanjay’s in the Honors College,” Dylan informed us. “Majoring in Electrical Engineering. Talk about badass.” I guess you have to give Dylan some credit. He was trying to be a good roommate, doing his best to include Sanjay in the conversation and make him feel comfortable. It was just a waste of time, that’s all. Sanjay wasn’t going to be friends with us, and we weren’t going to be friends with him. ~ Tom Perrotta,
17:We mean to say that Symbolism and Decadence — the negative attitude to which is indisputable to everyone except the "participants" — are genetically connected with everything brilliant and sublime created by the "unbound personality" during this period of time, from the Renaissance up to the development of electrical engineering; contrariwise, the border which they cannot cross is laid down where man understood that he was always "bound." The great continent of history, the continent of real deeds, practical needs, and more than all that, of received religion and the established Church - that is whose shore this stinking monster can never crawl into, that is where we are fleeing to from it, that is where man can always save himself. Where the monastery wall rises this surge of the faithless waves of history — no matter how strong it may become and how far it may spread around — will stop and fall back.

("On Symbolists & Decadence") ~ Vasily Rozanov,
18:In the face of this difficulty [of defining "computer science"] many people, including myself at times, feel that we should ignore the discussion and get on with doing it. But as George Forsythe points out so well in a recent article*, it does matter what people in Washington D.C. think computer science is. According to him, they tend to feel that it is a part of applied mathematics and therefore turn to the mathematicians for advice in the granting of funds. And it is not greatly different elsewhere; in both industry and the universities you can often still see traces of where computing first started, whether in electrical engineering, physics, mathematics, or even business. Evidently the picture which people have of a subject can significantly affect its subsequent development. Therefore, although we cannot hope to settle the question definitively, we need frequently to examine and to air our views on what our subject is and should become. ~ Richard Hamming, 1968 Turing Award lecture, Journal of the ACM 16 (1), January 1969, p. 4. In this quote Hamming refers to George Forsythe, "What to do until the computer scientist comes", Am. Math. Monthly 75 (5), May 1968, p. 454-461.,
19:Since Leibniz there has perhaps been no man who has had a full command of all the intellectual activity of his day. Since that time, science has been increasingly the task of specialists, in fields which show a tendency to grow progressively narrower... Today there are few scholars who can call themselves mathematicians or physicists or biologists without restriction. A man may be a topologist or a coleopterist. He will be filled with the jargon of his field, and will know all its literature and all its ramifications, but, more frequently than not, he will regard the next subject as something belonging to his colleague three doors down the corridor, and will consider any interest in it on his own part as an unwarrantable breach of privacy... There are fields of scientific work, as we shall see in the body of this book, which have been explored from the different sides of pure mathematics, statistics, electrical engineering, and neurophysiology; in which every single notion receives a separate name from each group, and in which important work has been triplicated or quadruplicated, while still other important work is delayed by the unavailability in one field of results that may have already become classical in the next field. ~ Norbert Wiener, Cybernetics - Or Control and Communication in the Animal and the Machine (1948),
20:The Memory Business Steven Sasson is a tall man with a lantern jaw. In 1973, he was a freshly minted graduate of the Rensselaer Polytechnic Institute. His degree in electrical engineering led to a job with Kodak’s Apparatus Division research lab, where, a few months into his employment, Sasson’s supervisor, Gareth Lloyd, approached him with a “small” request. Fairchild Semiconductor had just invented the first “charge-coupled device” (or CCD)—an easy way to move an electronic charge around a transistor—and Kodak needed to know if these devices could be used for imaging.4 Could they ever. By 1975, working with a small team of talented technicians, Sasson used CCDs to create the world’s first digital still camera and digital recording device. Looking, as Fast Company once explained, “like a ’70s Polaroid crossed with a Speak-and-Spell,”5 the camera was the size of a toaster, weighed in at 8.5 pounds, had a resolution of 0.01 megapixel, and took up to thirty black-and-white digital images—a number chosen because it fell between twenty-four and thirty-six and was thus in alignment with the exposures available in Kodak’s roll film. It also stored shots on the only permanent storage device available back then—a cassette tape. Still, it was an astounding achievement and an incredible learning experience. Portrait of Steven Sasson with first digital camera, 2009 Source: Harvey Wang, From Darkroom to Daylight “When you demonstrate such a system,” Sasson later said, “that is, taking pictures without film and showing them on an electronic screen without printing them on paper, inside a company like Kodak in 1976, you have to get ready for a lot of questions. I thought people would ask me questions about the technology: How’d you do this? How’d you make that work? I didn’t get any of that. They asked me when it was going to be ready for prime time? When is it going to be realistic to use this? Why would anybody want to look at their pictures on an electronic screen?”6 In 1996, twenty years after this meeting took place, Kodak had 140,000 employees and a $28 billion market cap. They were effectively a category monopoly. In the United States, they controlled 90 percent of the film market and 85 percent of the camera market.7 But they had forgotten their business model. Kodak had started out in the chemistry and paper goods business, for sure, but they came to dominance by being in the convenience business. Even that doesn’t go far enough. There is still the question of what exactly Kodak was making more convenient. Was it just photography? Not even close. Photography was simply the medium of expression—but what was being expressed? The “Kodak Moment,” of course—our desire to document our lives, to capture the fleeting, to record the ephemeral. Kodak was in the business of recording memories. And what made recording memories more convenient than a digital camera? But that wasn’t how the Kodak Corporation of the late twentieth century saw it. They thought that the digital camera would undercut their chemical business and photographic paper business, essentially forcing the company into competing against itself. So they buried the technology. Nor did the executives understand how a low-resolution 0.01 megapixel image camera could hop on an exponential growth curve and eventually provide high-resolution images. So they ignored it. Instead of using their weighty position to corner the market, they were instead cornered by the market. ~ Peter H Diamandis,

IN CHAPTERS [2/2]



   1 Cybernetics






1.03 - Time Series, Information, and Communication, #Cybernetics, or Control and Communication in the Animal and the Machine, #Norbert Wiener, #Cybernetics
  the specialist in Electrical Engineering than for the reader of this
  book. They may be found elsewhere. 5

3-5 Full Circle, #unset, #Arthur C Clarke, #Fiction
  The class's extensive term papers, written along these clearly converging lines, turned out so splendidly that I suggested the possibility of publishing them as a book. The students enthusiastically elected an editorial board, and when the book is ready, and its title decided upon, we will submit it to a publisher. Have not the Two Cultures come together, as C. P. Snow predicted, in the United States? Early in 1972, the founder of the Unification Church arrived in the United States. Sun Myung Moon is a South Korean philosopher, raised as a Christian and trained in Electrical Engineering in Japan. His Church's half million profoundly dedicated members are citizens of some twenty-six countries in Asia, America, and Europe.
  At our first meeting, in which Mr. Moon was flanked by three Korean interpreters, and I by the directors of two of his American centers, he announced that he wished me to organize an international conference so that the world could become acquainted with Unified Science.

WORDNET



--- Overview of noun electrical_engineering

The noun electrical engineering has 1 sense (no senses from tagged texts)
            
1. electrical engineering, EE ::: (the branch of engineering science that studies the uses of electricity and the equipment for power generation and distribution and the control of machines and communication)


--- Synonyms/Hypernyms (Ordered by Estimated Frequency) of noun electrical_engineering

1 sense of electrical engineering                  

Sense 1
electrical engineering, EE
   => engineering, engineering science, applied science, technology
     => discipline, subject, subject area, subject field, field, field of study, study, bailiwick
       => knowledge domain, knowledge base, domain
         => content, cognitive content, mental object
           => cognition, knowledge, noesis
             => psychological feature
               => abstraction, abstract entity
                 => entity


--- Hyponyms of noun electrical_engineering

1 sense of electrical engineering                  

Sense 1
electrical engineering, EE
   => telecommunication


--- Synonyms/Hypernyms (Ordered by Estimated Frequency) of noun electrical_engineering

1 sense of electrical engineering                  

Sense 1
electrical engineering, EE
   => engineering, engineering science, applied science, technology




--- Coordinate Terms (sisters) of noun electrical_engineering

1 sense of electrical engineering                  

Sense 1
electrical engineering, EE
  -> engineering, engineering science, applied science, technology
   => aeronautical engineering
   => bionics
   => biotechnology, bioengineering, ergonomics
   => chemical engineering
   => civil engineering
   => electrical engineering, EE
   => computer science, computing
   => architectural engineering
   => industrial engineering, industrial management
   => information technology, IT
   => mechanical engineering
   => nanotechnology
   => nuclear engineering
   => naval engineering
   => rocketry




--- Grep of noun electrical_engineering
electrical engineering



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University of Montenegro Faculty of Electrical Engineering
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