pattern miller

pattern miller

Автоматика: фрезерный станок для обработки по шаблону

pattern miller

фрезерный станок для обработки по шаблону

miller

1) фрезерный станок (см. тж mill)

2) фреза

3) фрезеровщик

4) смешивающие литейные бегуны

5) мельница

•

- bed miller

- bed-type miller
- bench miller
- bracket miller
- cam miller
- CNC/copy miller
- continuous rotary miller
- contour miller
- copy/digitizing miller
- copying miller
- crank pin miller
- die miller
- drum-type indexing miller
- drum-type miller
- engraving miller
- fir tree miller
- fixed bed miller
- flute miller
- form miller
- hand miller
- keyseat-and-slot miller
- knee-and-column miller
- knee-type miller
- NC contour miller
- open-side miller
- pattern miller
- planer-type miller
- plano miller
- production miller
- profile miller
- ram-head miller
- ram-type miller
- rise-and-fall miller
- rotary-type miller
- skin miller
- slot miller
- spline-and-keyway miller
- swivel head miller
- thread miller
- thread-type miller
- tool and die miller
- toolroom miller
- traveling bridge miller
- T-slot miller
- turbine slot miller
- turret miller
- worm miller

Science

   1) Thoughts, Feelings, and Actions of Sentient Beings Are Not a Subject of Science

   It is a common notion, or at least it is implied in many common modes of speech, that the thoughts, feelings, and actions of sentient beings are not a subject of science.... This notion seems to involve some confusion of ideas, which it is necessary to begin by clearing up. Any facts are fitted, in themselves, to be a subject of science, which follow one another according to constant laws; although those laws may not have been discovered, nor even to be discoverable by our existing resources. (Mill, 1900, B. VI, Chap. 3, Sec. 1)

   2) Two Contending But Complementary Philosophies of Science

   One class of natural philosophers has always a tendency to combine the phenomena and to discover their analogies; another class, on the contrary, employs all its efforts in showing the disparities of things. Both tendencies are necessary for the perfection of science, the one for its progress, the other for its correctness. The philosophers of the first of these classes are guided by the sense of unity throughout nature; the philosophers of the second have their minds more directed towards the certainty of our knowledge. The one are absorbed in search of principles, and neglect often the peculiarities, and not seldom the strictness of demonstration; the other consider the science only as the investigation of facts, but in their laudable zeal they often lose sight of the harmony of the whole, which is the character of truth. Those who look for the stamp of divinity on every thing around them, consider the opposite pursuits as ignoble and even as irreligious; while those who are engaged in the search after truth, look upon the other as unphilosophical enthusiasts, and perhaps as phantastical contemners of truth.... This conflict of opinions keeps science alive, and promotes it by an oscillatory progress. (Oersted, 1920, p. 352)

   3) The Fundamental Ideas of Science Are Essentially Simple

   Most of the fundamental ideas of science are essentially simple, and may, as a rule, be expressed in a language comprehensible to everyone. (Einstein & Infeld, 1938, p. 27)

   4) A New Scientific Truth Triumphs Because Its Opponents Eventually Die

   A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather because its opponents eventually die, and a new generation grows up that is familiar with it. (Planck, 1949, pp. 33-34)

   [Original quotation: "Eine neue wissenschaftliche Wahrheit pflegt sich nicht in der Weise durchzusetzen, dass ihre Gegner ueberzeugt werden und sich as belehrt erklaeren, sondern vielmehr dadurch, dass die Gegner allmaehlich aussterben und dass die heranwachsende Generation von vornherein mit der Wahrheit vertraut gemacht ist." (Planck, 1990, p. 15)]

   5) The Search for the Absolute

   I had always looked upon the search for the absolute as the noblest and most worth while task of science. (Planck, 1949, p. 46)

   6) When Your Scientific Doing Is Worthless

   If you cannot-in the long run-tell everyone what you have been doing, your doing has been worthless. (SchroЁdinger, 1951, pp. 7-8)

   7) Description in Plain Language Is a Criterion of Understanding

   Even for the physicist the description in plain language will be a criterion of the degree of understanding that has been reached. (Heisenberg, 1958, p. 168)

   8) The Tentativeness of Scientific Statements

   The old scientific ideal of episteґmeґ-of absolutely certain, demonstrable knowledge-has proved to be an idol. The demand for scientific objectivity makes it inevitable that every scientific statement must remain tentative forever. It may indeed be corroborated, but every corroboration is relative to other statements which, again, are tentative. Only in our subjective experiences of conviction, in our subjective faith, can we be "absolutely certain." (Popper, 1959, p. 280)

   9) Scientists Often Close Their Minds to New Scientific Evidence

   The layman, taught to revere scientists for their absolute respect for the observed facts, and for the judiciously detached and purely provisional manner in which they hold scientific theories (always ready to abandon a theory at the sight of any contradictory evidence) might well have thought that, at Miller's announcement of this overwhelming evidence of a "positive effect" [indicating that the speed of light is not independent from the motion of the observer, as Einstein's theory of relativity demands] in his presidential address to the American Physical Society on December 29th, 1925, his audience would have instantly abandoned the theory of relativity. Or, at the very least, that scientists-wont to look down from the pinnacle of their intellectual humility upon the rest of dogmatic mankind-might suspend judgment in this matter until Miller's results could be accounted for without impairing the theory of relativity. But no: by that time they had so well closed their minds to any suggestion which threatened the new rationality achieved by Einstein's world-picture, that it was almost impossible for them to think again in different terms. Little attention was paid to the experiments, the evidence being set aside in the hope that it would one day turn out to be wrong. (Polanyi, 1958, pp. 12-13)

    10) The Practice of Normal Science

   The practice of normal science depends on the ability, acquired from examplars, to group objects and situations into similarity sets which are primitive in the sense that the grouping is done without an answer to the question, "Similar with respect to what?" (Kuhn, 1970, p. 200)

    11) Of What Science Consists

   Science in general... does not consist in collecting what we already know and arranging it in this or that kind of pattern. It consists in fastening upon something we do not know, and trying to discover it. (Collingwood, 1972, p. 9)

    12) The Emergence of Scientific Fields

   Scientific fields emerge as the concerns of scientists congeal around various phenomena. Sciences are not defined, they are recognized. (Newell, 1973a, p. 1)

    13) We Do Not Take Our Theories Seriously Enough

   This is often the way it is in physics-our mistake is not that we take our theories too seriously, but that we do not take them seriously enough. I do not think it is possible really to understand the successes of science without understanding how hard it is-how easy it is to be led astray, how difficult it is to know at any time what is the next thing to be done. (Weinberg, 1977, p. 49)

    14) Science Takes away Philosophical Foundations

   Science is wonderful at destroying metaphysical answers, but incapable of providing substitute ones. Science takes away foundations without providing a replacement. Whether we want to be there or not, science has put us in a position of having to live without foundations. It was shocking when Nietzsche said this, but today it is commonplace; our historical position-and no end to it is in sight-is that of having to philosophize without "foundations." (Putnam, 1987, p. 29)

effect

1) результат

2) влияние
3) корпус выпарного аппарата
4) эффект
5) действие
6) явление
7) воздействие
8) имущество
9) пожитки
10) впечатление
11) производительность
– anionic effect
– as per documents in effect
– astatic effect
– back effect
– barrier-layer effect
– binaural effect
– blanket effect
– blast effect
– body effect
– Borrmann effect
– boundary effect
– calender effect
– cancellation effect
– capacitive in effect
– cause and effect
– Coekelbergs effect
– Compton effect
– coupling effect
– cumulative effect
– dead effect
– dead-end effect
– deleterious effect
– destructive effect
– directional effect
– diversity effect
– Doppler effect
– Dorn effect
– dynatron effect
– echo effect
– edge effect
– effect of confusion
– effect variable
– electrooptic effect
– end effect
– exchange effect
– Faraday effect
– flicker effect
– flywheel effect
– focusing effect
– fringe effect
– front effect
– germinating effect
– Gersho-Rosencwaig effect
– ghost effect
– grain effect
– greenhouse effect
– ground effect
– Gunn effect
– Hall effect
– Hanle effect
– hot-electron effect
– ill effect
– image effect
– immediate effect
– induction effect
– interference effect
– intermittency effect
– isotope effect
– Johnson-Rahbek effect
– Judd-Ofelt effect
– keystone effect
– latitude effect
– lead to effect
– luminous effect
– Luxemburg effect
– Mach effect
– magnetoacoustic effect
– magnetocaloric effect
– magnetoionic effect
– magnetostriction effect
– Malter effect
– masking effect
– mechanocaloric effect
– memory effect
– microphone effect
– Miller effect
– multipactor effect
– multipath effect
– obstacle effect
– orientation effect
– pattern effect
– photoconductive effect
– photoelectric effect
– photorefractive effect
– photovoltaic effect
– piezoelectric effect
– piezomagnetic effect
– piezooptic effect
– pinch effect
– Pockels effect
– proximity effect
– pyroelectric effect
– Ranque effect
– reinforcing effect
– relativistic effect
– salt effect
– sanyako effect
– scale effect
– Schottky effect
– screening effect
– shadow effect
– shattering effect
– shore effect
– shot effect
– space-charge effect
– speckle effect
– stereophonic effect
– stereosocopic effect
– stroboscopic effect
– structure-forming effect
– Suhl effect
– surface effect
– tensoresistive effect
– thermal effect
– thermoelastic effect
– thermoelectric effect
– thermomagnetic effect
– thermomechanical effect
– threshold effect
– time effect
– topographical effect
– tunnel effect
– zoom-in effect
– zoome out effect

anomalous photovoltaic effect — <engin.> эффект фотовольтаический аномальный

come into effect — вступать в действие

external photoelectric effect — внешний фотоэффект

field effect phototransistor — полевой фототранзистор

heating effect of current — тепловое дейстиве тока

hole burning effect — эффект выгорания дырок

inner photoemissive effect — внутренний фотоэффект

internal photoelectric effect — внутренний фотоэффект

outer photoemissive effect — внешний фотоэффект

reverse greenhouse effect — <meteor.> эффект антипарниковый

shadow forming effect — островной эффект

shallow water effect — влияние отмели

code

1) код

а) совокупность символов или сигналов и система правил для представления информации в виде последовательности элементов такой совокупности

б) вчт программа; текст программы

2) кодировать

а) представлять информацию в виде последовательности элементов некоторой совокупности символов или сигналов по определённой системе правил

б) вчт программировать

3) pl вчт скрытые коды (напр. в текстовых редакторах)

4) бион генетический код

5) модулировать (напр. в системе с дельта-модуляцией)

6) преобразовывать из аналоговой формы в цифровую

7) кодекс

•

- Able code

- absolute code
- access code
- adaptive code
- additional code
- address code
- air-to-ground liaison code
- A-law code
- Alfa code
- alphanumeric code
- alternate mark inversion code
- AMI code
- answerback code
- area code
- assembly code
- authentication code
- authorization code
- automatic code
- auxiliary code
- balanced code
- bank code
- bar code
- Barker code
- base station identity code
- Baudot code
- BCD code
- BCH code
- binary code
- binary-coded decimal code
- biorthogonal code
- bipolar code
- bipolar with N-zero substitution code
- biquinary code
- block code
- BNZS code
- boot code
- bootstrap code
- Bose-Chaudhuri-Hocquenghem code
- break code
- brevity code
- BT code
- burst-correcting code
- burst-detecting code
- burst-trapping code

- byte-code

- C/A code

- cable code
- cable Morse code
- call directing code
- call-station code
- capacitor color code
- card code
- carrier identification code
- chain code
- channel code
- character code
- circulant code
- close-packed code
- coarse acquisition code
- color code
- color bar code
- command code
- complementary code
- complementary Golay code
- completion code
- computer code
- computer numerical code
- concatenated code
- condensation code
- condition code
- constant-weight code
- Continental code
- control code
- convolution code
- convolutional code
- country code

- cross-interleaved Read-Solomon code

- cue code

- cyclic code
- cyclic binary code
- decimal code
- decomposable Golay code
- dense binary code
- destination code
- device code
- diffuse code
- digital code
- direct code
- directing code
- dot-and-dash code
- double-adjacent error-correcting code
- drawing code
- DVD regional code
- EFM code
- EIA color code
- eight-level code
- eight-to-fourteen modulation code
- elaborated code
- electrical code
- electrical safety code
- entropy code
- equal-length code
- equidistant code
- equipment manufacturer code
- error code
- error-control code

- error-correcting code

- error-detecting code

- error detection and correction code

- error-locating code

- escape code
- excess-three code
- executable machine code
- extended binary-coded decimal interchange-code
- extremal code
- feedback balanced code
- fieldata code
- firewall code
- five-level code
- fixed-length code
- fixed-weight code
- format code
- four-of-eight code
- four-out-of-eight code
- fractal code
- framing code
- full frame time code
- function code
- GBT code
- generalized burst-trapping code
- genetic code

- Golay sequential code

- Gray code

- group code
- Hamming code
- hidden codes

- high density bipolar code

- Hollerith code

- HSF code
- Huffman-Shannon-Fano code
- ID code
- identification code
- identity code
- inheritance code
- in-line code
- instruction code
- interchange code
- interlace code
- interleaved code
- International cable code
- international Morse code

- international standard recording code

- interrogation -code

- interrupt code
- inverted code
- iterative code
- jargon code
- Java code
- key code
- lead color code
- legacy code
- line code
- linear code
- lock code
- longitudinal time code
- loop code
- machine code
- macro code
- magnetic tape code
- majority-decodable code
- make code
- Manchester code
- Manchester II code
- manipulation detection code
- manufacturer code
- maximally compressed pattern recognition code
- message authentication code
- Miller code
- minimum redundance code
- mnemonic code
- mobile country code
- mobile network code
- modular code
- Moore code
- Morse code
- Morse cable code
- multiple-address code
- multiple-burst code
- mutual code
- N-address code
- N-ary code
- native code
- nonprint code
- nonreturn-to-zero code
- nonreturn-to-zero inverted code
- NRZ code
- NRZI code
- object code
- offset binary code
- on-drop frame time code
- one-level code
- open source code

- operation code

- order code

- P-code
- p-code
- parity code
- parity-checking code
- partial-response code
- path-invariant code
- perfect code
- permutation code
- permutation-modulation code
- pilot code
- PN code
- polynomial code
- position code
- postal code
- precision code
- predictive code
- prefix code
- primary address code
- printer-telegraph code
- printing-telegraph code
- PRN code
- progressive code
- progressive/sequential code
- pseudonoise code
- pseudorandom noise code
- pseudo-ternary code
- public code
- pulse code
- punched-card code
- punched-tape code
- punctured code
- quasi-cyclic code
- quasi-perfect code
- quaternary code
- quinbinary code
- radar code
- radar-type code
- radio paging code N 1
- randomized code
- Read-Solomon code

- Read-Solomon product code

- recurrent code

- redundancy-reducing code
- redundant code
- Reed-Muller code
- reenterable code
- reentrant code
- reflected binary code
- reflective code
- regional code
- relocatable code
- reserved code
- residue code
- resistor color code
- restricted code
- RETMA color code
- return code
- return-to-zero code
- RL code
- RMA color code
- robust code
- routing code
- run-length code
- RZ code
- salami code
- scan code
- search code
- secret code
- self-checking code
- self-complementing code
- self-correcting code
- self-documenting code
- self-dual code
- self-modifying code
- self-validating code
- sequential code
- servo code
- servo Gray code
- seven-unit teleprinter code
- SF code
- Shannon-Fano code
- shift codes
- short code
- signature code
- simplex code
- single-burst code
- SMPTE control code
- SMPTE time code
- source code
- spaghetti code
- specific code
- station-identification code
- stochastic code
- stop code
- straight-line code
- substitution error-correcting code
- synchronization error-correcting code
- systematic code
- systematic error-checking code
- tape code
- telegraph code
- teletype code
- teletypewriter code
- threaded code
- time code
- time address code
- time-invariant code
- transaction code

- transfer authentication code

- transorthogonal code

- transparent code
- tree code
- trellis code
- twinned-binary code
- two-of-five code
- two-out-of-five code
- two-part code
- unbreakable code
- unipolar code
- unit disparity code
- unit-memory code

- Universal code

- universal product code

- variable-length code
- variable-rate code
- Walsh code
- weighted code
- word code
- Wyner-Ash code
- zero-disparity code
- ZIP code
- zip code

effect

1) эффект; явление || производить эффект; порождать явление

2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие

3) pl тлв вчт спецэффекты

•

- effect of intermediate valence

- ac Hall effect
- ac Josephson effect
- acoustical Faraday effect
- acoustic Doppler effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- background effect
- back-porch effect
- back stress effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects

- digital video effect

- direct piezoelectric effect

- domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadro effect
- quadratic magnetooptical effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S-effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface-charge effect
- surface field effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effect
- ΔE-effect

code

1) код

а) совокупность символов или сигналов и система правил для представления информации в виде последовательности элементов такой совокупности

б) вчт. программа; текст программы

2) кодировать

а) представлять информацию в виде последовательности элементов некоторой совокупности символов или сигналов по определённой системе правил

б) вчт. программировать

3) pl.; вчт. скрытые коды (напр. в текстовых редакторах)

4) бион. генетический код

5) модулировать (напр. в системе с дельта-модуляцией)

6) преобразовывать из аналоговой формы в цифровую

7) кодекс

•

- Able code

- absolute code
- access code
- adaptive code
- additional code
- address code
- air-to-ground liaison code
- A-law code
- Alfa code
- alphanumeric code
- alternate mark inversion code
- AMI code
- answerback code
- area code
- assembly code
- authentication code
- authorization code
- automatic code
- auxiliary code
- balanced code
- bank code
- bar code
- Barker code
- base station identity code
- Baudot code
- BCD code
- BCH code
- binary code
- binary-coded decimal code
- biorthogonal code
- bipolar code
- bipolar with N zero substitution code
- biquinary code
- block code
- BNZS code
- boot code
- bootstrap code
- Bose-Chaudhuri-Hocquenghem code
- break code
- brevity code
- BT code
- burst-correcting code
- burst-detecting code
- burst-trapping code
- C/A code
- cable code
- cable Morse code
- call directing code
- call-station code
- capacitor color code
- card code
- carrier identification code
- chain code
- channel code
- character code
- circulant code
- close-packed code
- coarse acquisition code
- color bar code
- color code
- command code
- complementary code
- complementary Golay code
- completion code
- computer code
- computer numerical code
- concatenated code
- condensation code
- condition code
- constant-weight code
- Continental code
- control code
- convolution code
- convolutional code
- country code
- cross-interleaved Read-Solomon code
- cue code
- cyclic binary code
- cyclic code
- decimal code
- decomposable Golay code
- dense binary code
- destination code
- device code
- diffuse code
- digital code
- direct code
- directing code
- dot-and-dash code
- double-adjacent error-correcting code
- drawing code
- DVD regional code
- EFM code
- EIA color code
- eight-level code
- eight-to-fourteen modulation code
- elaborated code
- electrical code
- electrical safety code
- entropy code
- equal-length code
- equidistant code
- equipment manufacturer code
- error code
- error detection and correction code
- error-control code
- error-correcting code
- error-detecting code
- error-locating code
- escape code
- excess-three code
- executable machine code
- extended binary-coded decimal interchange code
- extremal code
- feedback balanced code
- fieldata code
- firewall code
- five-level code
- fixed-length code
- fixed-weight code
- format code
- four-of-eight code
- four-out-of-eight code
- fractal code
- framing code
- full frame time code
- function code
- GBT code
- generalized burst-trapping code
- genetic code
- Golay sequential code
- Gray code
- group code
- Hamming code
- hidden codes
- high density bipolar code
- Hollerith code
- HSF code
- Huffman-Shannon-Fano code
- ID code
- identification code
- identity code
- inheritance code
- in-line code
- instruction code
- interchange code
- interlace code
- interleaved code
- International cable code
- international Morse code
- international standard recording code
- interrogation-code
- interrupt code
- inverted code
- iterative code
- jargon code
- Java code
- key code
- lead color code
- legacy code
- line code
- linear code
- lock code
- longitudinal time code
- loop code
- machine code
- macro code
- magnetic tape code
- majority-decodable code
- make code
- Manchester code
- Manchester II code
- manipulation detection code
- manufacturer code
- maximally compressed pattern recognition code
- message authentication code
- Miller code
- minimum redundance code
- mnemonic code
- mobile country code
- mobile network code
- modular code
- Moore code
- Morse cable code
- Morse code
- multiple-address code
- multiple-burst code
- mutual code
- N-address code
- N-ary code

- native code

- nonprint code

- nonreturn-to-zero code
- nonreturn-to-zero inverted code
- NRZ code
- NRZI code
- object code
- offset binary code
- on-drop frame time code
- one-level code
- open source code
- operation code
- order code
- P code
- parity code
- parity-checking code
- partial-response code
- path-invariant code
- p-code
- perfect code
- permutation code
- permutation-modulation code
- pilot code
- PN code
- polynomial code
- position code
- postal code
- precision code
- predictive code
- prefix code
- primary address code
- printer-telegraph code
- printing-telegraph code
- PRN code
- progressive code
- progressive/sequential code
- pseudonoise code
- pseudorandom noise code
- pseudo-ternary code
- public code
- pulse code
- punched-card code
- punched-tape code
- punctured code
- quasi-cyclic code
- quasi-perfect code
- quaternary code
- quinbinary code
- radar code
- radar-type code
- radio paging code N 1
- randomized code
- Read-Solomon code
- Read-Solomon product code
- recurrent code
- redundancy-reducing code
- redundant code
- Reed-Muller code
- reenterable code
- reentrant code
- reflected binary code
- reflective code
- regional code
- relocatable code
- reserved code
- residue code
- resistor color code
- restricted code
- RETMA color code
- return code
- return-to-zero code
- RL code
- RMA color code
- robust code
- routing code
- run-length code
- RZ code
- salami code
- scan code
- search code
- secret code
- self-checking code
- self-complementing code
- self-correcting code
- self-documenting code
- self-dual code
- self-modifying code
- self-validating code
- sequential code
- servo code
- servo Gray code
- seven-unit teleprinter code
- SF code
- Shannon-Fano code
- shift codes
- short code
- signature code
- simplex code
- single-burst code
- SMPTE control code
- SMPTE time code
- source code
- spaghetti code
- specific code
- station-identification code
- stochastic code
- stop code
- straight-line code
- substitution error-correcting code
- synchronization error-correcting code
- systematic code
- systematic error-checking code
- tape code
- telegraph code
- teletype code
- teletypewriter code
- threaded code
- time address code
- time code
- time-invariant code
- transaction code
- transfer authentication code
- transorthogonal code
- transparent code
- tree code
- trellis code
- twinned-binary code
- two-of-five code
- two-out-of-five code
- two-part code
- unbreakable code
- unipolar code
- unit disparity code
- unit-memory code
- Universal code
- universal product code
- variable-length code
- variable-rate code
- Walsh code
- weighted code
- word code
- Wyner-Ash code
- zero-disparity code
- ZIP code
- zip code

effect

1) эффект; явление || производить эффект; порождать явление

2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие

3) pl.; тлв.; вчт. спецэффекты

•

- ΔE-effect

- ac Hall effect
- ac Josephson effect
- acoustic Doppler effect
- acoustical Faraday effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- back stress effect
- background effect
- back-porch effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects
- digital video effect
- direct piezoelectric effect
- domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- effect of intermediate valence
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadratic magnetooptical effect
- quadro effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface field effect
- surface-charge effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effect

code

1) код

2) шифр

3) программа

•

- Able code

- access code
- adaptive predictive code
- additional code
- address code
- Aiken code
- Alpha code
- alphabetic code
- alphanumeric code
- alternate mark inversion code
- alternating code
- ambush code
- answer-back code
- application code
- area code
- authentication code
- automatic code
- backward f-code
- balanced code
- bar code
- Baudot code
- binary code
- bi-phase code
- block code
- Bose-Chaudhuri-Hocquenguem code
- cable code
- call direction code
- called station code
- calling code
- carrier recovering code
- CCIT2 code
- central office code
- closed group locking code
- color code
- comma-free code
- command code
- complement code
- completion code
- computer code
- concatenated code
- condition code
- constant code
- Continental code
- continuous-radio code
- convolutional code
- correcting code
- country code
- creeping code
- cyclic code
- data code
- data-network identification code
- decade code
- decimal code
- dense-binary code
- destination point code
- device control codes
- directing code
- display-unlock code
- distribution code
- double-current cable code
- double-pulse code
- drop-frame time code
- dynamic code
- eight-level code
- engineering code
- equal-length code
- error code
- error status code
- error-correcting code
- error-detection code
- even code
- excessless code
- execution operation code
- extended binary-coded decimal-interchange code
- extension-start code
- fault code
- frame rate code
- framing code
- gold code
- Gray code
- group start code
- Hagelbarger code
- Hamming code
- identifying code
- instruction code
- international cable code
- international dialing code
- interpretative code
- invalid code
- inverse code
- iterative code
- letter code
- line code
- linear code
- local code
- long code
- magnetic code
- Manchester code
- marking code
- message-authentication code
- Miller-square code
- minimum-distance code
- modified-AMI code
- modified-Huffman code
- Morse code
- Morse-cable code
- multilevel code
- multiple-address code
- multiple-frequency code
- Murray code
- n-ary code
- natural code
- n-channel code
- n-digit code
- n-level code
- nonbinary code
- nonlinear code
- nonprint code
- n-unit code
- one-address code
- one-level code
- optical line code
- optimum code
- originating point code
- outgoing station code
- overprecision code
- packet-linear code
- paired-disparity code
- pair-separated triple code
- panel code
- paper-tape code
- parallel code
- pattern code
- perfect code
- permutation code
- personal code
- picture start code
- PIN code
- polar code
- polinomial code
- polling ID code
- prefix code
- prefix-free code
- primary code
- primitive code
- printing telegraph code
- private code
- product code
- programmable unlock code
- pseudorandom noise code
- PST code
- pulse code
- punch-tape code
- quant scale code
- quasi-perfect code
- quick-dial code
- radio search code
- recycling code
- redundant code
- Reed-Solomon code
- reference select code
- reflected code
- reflex binary code
- remote fax activation code
- retrieval code
- return code
- road code
- ROMable code
- routing code
- RS-code
- RZ-code
- selector call code
- self-demarcating code
- self-synchronizing code
- self-testing code
- series code
- signaling code
- simple code
- single-digit code
- single-frequency code
- skip code
- slice start code
- speed-dial code
- stage code
- start code
- startstop code
- stop code
- syllable code
- symmetrical code
- synchronization code
- system code
- systematic error checking code
- tag code
- telegraph code
- teleprinter code
- teletypewriter code
- three-digit code
- time code
- transmission system code
- trellis code
- trouble code
- trunk code
- two-digit code
- two-out-of-five code
- uneven code
- unified code
- unit code
- unit-distance code
- user-data start code
- variable length code
- vertical interval time code
- watchdog code
- Z-code

effect

1) эффект, влияние || влиять

2) действие, воздействие || действовать, воздействовать

3) результат, следствие; явление

4) эффект, впечатление

5) производить, изготовлять

•

to come into effect — вступать в действие, вступать в силу

to have effect (up)on — оказывать воздействие на

- additive effect

- anionic effect

- astatic effect

- asymmetrical effect

- averaged effect

- back effect

- barrier-layer effect

- batch effect

- binaural effect

- blanket effect

- block effect

- Borrmann effect

- calender effect

- cancellation effect

- chance effect

- Coekelbergs effect

- collective effect

- column effect

- combined effect

- common effect

- converse effect

- cubic effect

- cyclical effect

- dead effect

- dead-end effect

- direct effect

- diversity effect

- dominance effect

- Dorn effect

- dual effect

- effect of averaging

- effect of factor

- effect of grouping

- effect of pooling

- effect of replications

- electrooptic effect

- equivalent effect

- exchange effect

- external effect

- first order effect

- flywheel effect

- focusing effect

- front effect

- germinating effect

- Gersho-Rosencwaig effect

- ghost effect

- grain effect

- Hanle effect

- hole burning effect

- hot-electron effect

- ill effect

- immediate effect

- indirect effect

- induction effect

- inner photoemissive effect

- interaction effect

- intermittency effect

- internal photoelectric effect

- interplot effect

- inverse effect

- irrelevant effect

- isotope effect

- Judd-Ofelt effect

- latitude effect

- level effect

- luminous effect

- Luxemburg effect

- Mach effect

- magnetoacoustic effect

- magnetocaloric effect

- magnetoionic effect

- magnetostriction effect

- main effect

- Malter effect

- mechanocaloric effect

- Miller effect

- mutual effect

- n-th order effect

- obstacle effect

- orientation effect

- outer effect

- outer photoemissive effect

- pattern effect

- periodic effect

- piezooptic effect

- Pockels effect

- primary effect

- product effect

- pyroelectric effect

- quadratic effect

- random effect

- Ranque effect

- ratchet effect

- real effect

- regression effect

- reinforcing effect

- relativistic effect

- replication effect

- reverse greenhouse effect

- row effect

- Sagnac effect

- salt effect

- saturation effect

- scale effect

- secondary effect

- shadow effect

- shadow forming effect

- shallow water effect

- shore effect

- significant effect

- speckle effect

- stereophonic effect

- stereosocopic effect

- stratification effect

- structure-forming effect

- Suhl effect

- sympathy effect

- thermomagnetic effect

- thermomechanical effect

- time effect

- tip effect

- topographical effect

- total effect

- treatment effect

- true effect

- useful effect

- vanity effect

- within-sample effect

- zoom out effect

- zoom-in effect

Sprague, Frank Julian

SUBJECT AREA: Architecture and building, Electricity, Land transport, Railways and locomotives

[br]

b. 25 July 1857 Milford, Connecticut, USA

d. 25 October 1934 New York, USA

[br]

American electrical engineer and inventor, a leading innovator in electric propulsion systems for urban transport.

[br]

Graduating from the United States Naval Academy, Annapolis, in 1878, Sprague served at sea and with various shore establishments. In 1883 he resigned from the Navy and obtained employment with the Edison Company; but being convinced that the use of electricity for motive power was as important as that for illumination, in 1884 he founded the Sprague Electric Railway and Motor Company. Sprague began to develop reliable and efficient motors in large sizes, marketing 15 hp (11 kW) examples by 1885. He devised the method of collecting current by using a wooden, spring-loaded rod to press a roller against the underside of an overhead wire. The installation by Sprague in 1888 of a street tramway on a large scale in Richmond, Virginia, was to become the prototype of the universally adopted trolley system with overhead conductor and the beginning of commercial electric traction. Following the success of the Richmond tramway the company equipped sixty-seven other railways before its merger with Edison General Electric in 1890. The Sprague traction motor supported on the axle of electric streetcars and flexibly mounted to the bogie set a pattern that was widely adopted for many years.

Encouraged by successful experiments with multiple-sheave electric elevators, the Sprague Elevator Company was formed and installed the first set of high-speed passenger cars in 1893–4. These effectively displaced hydraulic elevators in larger buildings. From experience with control systems for these, he developed his system of multiple-unit control for electric trains, which other engineers had considered impracticable. In Sprague's system, a master controller situated in the driver's cab operated electrically at a distance the contactors and reversers which controlled the motors distributed down the train. After years of experiment, Sprague's multiple-unit control was put into use for the first time in 1898 by the Chicago South Side Elevated Railway: within fifteen years multiple-unit operation was used worldwide.

[br]

Principal Honours and Distinctions

President, American Institute of Electrical Engineers 1892–3. Franklin Institute Elliot Cresson Medal 1904, Franklin Medal 1921. American Institute of Electrical Engineers Edison Medal 1910.

Bibliography

1888, "The solution of municipal rapid transit", Trans. AIEE 5:352–98. See "The multiple unit system for electric railways", Cassiers Magazine, (1899) London, repub. 1960, 439–460.

1934, "Digging in “The Mines of the Motor”", Electrical Engineering 53, New York: 695–706 (a short autobiography).

Further Reading

Lionel Calisch, 1913, Electric Traction, London: The Locomotive Publishing Co., Ch. 6 (for a near-contemporary view of Sprague's multiple-unit control).

D.C.Jackson, 1934, "Frank Julian Sprague", Scientific Monthly 57:431–41.

H.C.Passer, 1952, "Frank Julian Sprague: father of electric traction", in Men of Business, ed. W. Miller, Cambridge, Mass., pp. 212–37 (a reliable account).

——1953, The Electrical Manufacturers: 1875–1900, Cambridge, Mass. P.Ransome-Wallis (ed.), 1959, The Concise Encyclopaedia of World Railway

Locomotives, London: Hutchinson, p. 143..

John Marshall, 1978, A Biographical Dictionary of Railway Engineers, Newton Abbot: David \& Charles.

GW / PJGR