-
61 msl
1) Компьютерная техника: Marvel Strategy Language, Model Specification Language2) Авиация: средний уровень моря (AD)3) Морской термин: Maximum Securing Load (a term used to define the allowable load capacity for a device used to secure cargo to a ship)4) Американизм: Minimum Subsistence Level5) Спорт: Mechanized Skirmish League, Mid State League6) Военный термин: Military School of Languages, maintenance supply liaison, manpower source listing, master support list, maximum service life, measurement standards laboratory, military shipping label, military support list7) Техника: main steamline, maximum still-water level8) Шутливое выражение: Mew's Secret Land, Mews Secret Land9) Математика: медианный уровень значимости (median significance level)10) Сокращение: Manned Space Laboratory, Master of Sciences in Linguistics, Mean Sea Level, Moisture Sensitivity Level11) Электроника: Modify system logging12) Вычислительная техника: Microsoft Software Library (Internet, MS), Maximum Segment Lifetime (TCP/IP)13) Нефть: M sea level, максимальный срок службы (maximum service life)14) Космонавтика: materials science laboratory15) Фирменный знак: Marks Spencer Lingerie16) Глоссарий компании Сахалин Энерджи: СУМ (Mean Sea Level)17) Образование: Multi Sensory Learning18) Сетевые технологии: Mirrored Server Link, manufacturer suggested list price, канал связи зеркально отображаемых серверов, канал связи отражённых серверов19) Автоматика: Modicon State Language20) Медицинская техника: Measurement Server Link (Philips)21) Расширение файла: Map Specification Library22) Нефть и газ: MV scale low limit, medium sea level, scale low limit for MV23) Аэропорты: Muscle Shoals, Alabama USA24) Парашютный спорт: уровень моря -
62 reciclado
adj.recycled.m.retraining.past part.past participle of spanish verb: reciclar.* * *1→ link=reciclar reciclar► adjetivo1 recycled* * *1.ADJ recycled2.SM (Téc) recycling; [de persona] retraining* * *I- da adjetivo recycledIIreciclaje masculino1) (de papel, vidrio) recycling2) ( de persona) retraining* * *I- da adjetivo recycledIIreciclaje masculino1) (de papel, vidrio) recycling2) ( de persona) retraining* * *reciclado11 = recycling [re-cycling].Ex: The main accent is on primary raw materials, with particular emphasis on the extraction and use of uranium, and on the recycling of municipal and industrial wastes.
* centro de reciclado = recycling centre.* cubo de reciclado = recycling bin.reciclado22 = reskilling [re-skilling].Ex: It is likely that there will be a gradual reskilling of programmers, learning the new techniques involved.
reciclado33 = recycled.Ex: Since 1999 we have been making custom tote bags out of recycled sails.
* * *recycledA (de papel, vidrio) recyclingB (de una persona) retraining* * *
Del verbo reciclar: ( conjugate reciclar)
reciclado es:
el participio
Multiple Entries:
reciclado
reciclar
reciclado,◊ reciclaje sustantivo masculino
reciclar ( conjugate reciclar) verbo transitivo ‹papel/vidrio› to recycle
reciclado,-a
I adjetivo recycled
II m (acción) recycling
reciclar verbo transitivo
1 (materiales) to recycle
2 (profesionales) to retrain
' reciclado' also found in these entries:
Spanish:
economizar
- reciclada
* * *reciclado, -a♦ adjrecycled♦ nmrecycling* * *I part → reciclarII m → reciclaje* * * -
63 time
время; период; продолжительность || устанавливать время; распределять время; рассчитывать по времени; согласовывать во времени; синхронизироватьtime in use — время использования; время работы (напр. инструмента)
time on machine — время пребывания ( обрабатываемой детали) на станке
- acceleration timeto cut time — сокращать время (напр. обработки)
- access time
- activation time
- active maintenance time
- active repair time
- activity time
- actual in-cut time
- addition time
- additional time
- adjustable laser ramp-up time
- administrative time
- aggregate travel time
- air-cutting time
- arcing time of pole
- assembly time
- assessed mean time to failure
- ATC time
- attended running time
- attenuation time
- auxiliary time
- available machine time
- available machining time
- available time
- average access time
- average time
- base cycle time
- batch change time
- batch lead time
- batch run time
- block execution time
- block processing time
- bounce time
- braking time to standstill
- braking time
- break time
- breakdown time
- bridging time
- build time
- build-up time
- cam idle time
- cell production time
- changeover cut-to-cut time
- changeover time
- characteristic time
- charge time
- chip-cutting time
- chip-making time
- chip-to-chip toolchange time
- clock cycle time
- closing time
- combined travel/load time
- commissioning time
- component cycle time
- component inspection time
- component time
- computed machine time
- computing time
- control flow time
- control time
- conversion time
- correction time
- corrective maintenance time
- c-percentile storageability time
- c-percentile time to failure
- cumulative cutting time
- cure time
- current fall time
- current rise time
- cut time
- cutting time
- cut-to-cut time
- cycle time
- dead cycle time
- dead time
- debugging time
- delay time
- delivery time
- depalletizing time
- derivative action time
- derricking time
- detection time
- direct manufacture time
- disengaging time
- division time
- door-to-door time
- double-stroke time
- down time
- dry-cycle time
- dwell time
- effective cutting time
- effective dead time
- empty running time
- end-of-job time
- equispaced times
- equivalent running time for wear
- eroding time
- erosion time
- estimation time
- execution time
- exposure time
- fall time
- fast response time
- finishing time
- first-off machining time
- fitting time
- fixture lead time
- floor-to-floor time
- flow time
- forward recovery time
- frame time
- full brazing time
- full operating time
- full soldering time
- gate controlled turn-off delay time
- gate controlled turn-off fall time
- gate controlled turn-off time
- grinding time
- gripper-changing time
- head-changing time
- hobbing time
- holding time
- idle time
- index time
- indexing time
- innovation time
- in-process time
- integral action time
- interarrival time
- interoperation time
- interpolation delay time
- jaw-adjusting time
- job completion time
- job finish time
- laser interaction time
- laser shutter opening time
- laser weld tempering time
- laser-beam dwell time
- laser-beam interaction time
- lead time
- learning time
- loading time
- machine down time
- machine repair time
- machine run time
- machine slack time
- machine wait time
- machine-setting time
- machine-setup time
- machining floor-to-floor time
- machining time
- machining-cycle time
- maintenance down time
- maintenance time
- make time
- manual machining time
- manufacturing cycle time
- manufacturing lead time
- material to end product lead time
- maximum resetting time
- mean time between failures
- mean time to failure
- mean time to repair
- measuring run time
- metal-to-metal time
- minimum accelerating time
- minimum braking time
- move time
- moving time
- multiplication time
- NC machining time
- NC program debug time
- no-failure operating time
- noncut time
- noncutting time
- nonmachining time
- nonproductive machine time
- nonrequired time
- numerical processing time
- observed mean time to failure
- off-machine process time
- off-shift machine down time
- off-shift slack time
- opening time
- operate time
- operating spindle time
- operating time
- operation cycle time
- operation time
- operator's attention time
- operator's reaction time
- operator's time
- optimized contact time
- out-of-cut machine time
- out-of-cut time
- output cycle time
- overall cycle time
- overall lead time
- pallet change time
- pallet processing time
- pallet shuttle time
- parasitic time
- part turnaround time
- partial operating time
- part-waiting time
- payback time
- periodic time
- pickup time
- piece sequence time
- piece time
- planned loading time
- planning lead time
- planning time
- predicted mean time to failure
- preparatory time
- preset operating time before corrective adjustment
- preset operating time
- preset time
- probing time
- process response time
- process time
- processing time
- product development lead time
- product flow time
- product lead time
- production lead time
- production time per piece
- production time per unit
- production time
- productive time
- profiling time
- programming time
- prorated time
- protective power time
- pulse decay time
- pulse response time
- pulse rise time
- pulse time
- queue time
- queueing time
- rapid response time
- reading time
- readout time
- real time
- rechucking time
- recognition time
- recovery time
- release time
- releasing time
- remaining life time
- repair/down cost time
- required time
- reset time
- residence time of materials
- response time
- restoration time
- return time
- reverse recovery current fall time
- reverse recovery current rise time
- reverse recovery time
- rise time
- robot down time
- roughing time
- run time
- running time
- running-in time
- safety lead time
- sampling time
- scan time
- schedule time
- scheduled time
- sensing time
- series machining time
- service time of the tool
- servicing time
- servo update time
- setter time
- setting time
- settling time
- setup time
- ship time
- slack time
- soaking time
- software execution time
- specified no-failure operating time
- specified operating time
- specified time
- spindle cutting time
- spindle run time
- stabilization time
- stand time
- standard handling time
- standard piece time
- starting time
- start-up time
- station time
- station-to-station time
- step response time
- stopping time
- storage cycle time
- storage time
- storageability time
- switching time
- switch-over time
- system time
- table-indexing time
- tape-preparation time
- tape-turnaround time
- target build time
- target time
- teach time
- throughput time
- time of starting
- tool change time
- tool exchange time
- tool index time
- tool life time
- tool-cutting time
- tool-in-cut time
- tooling-response time
- tool-setup time
- tool-to-tool changing time
- total access time
- total changeover time
- total equivalent running time for strength
- total equivalent running time for wear
- total manufacturing cycle time
- total running time
- total sequence time
- to-the-minute time
- transfer time
- transient time
- transit time
- transition time
- traveling time
- turnaround time
- turn-off time
- turn-on time
- undetected failure time
- unit cycle time
- unit production time
- unit time
- up time
- update time
- updating time
- vehicle time per hour
- vehicle-use time
- waiting time
- wakeup time
- warm-up time
- wasted time
- work-change time
- work-cycle time
- work-in-process time
- wrench time
- zero ATC timeEnglish-Russian dictionary of mechanical engineering and automation > time
-
64 pi|sać
impf Ⅰ vt 1. (zapisywać) to write; (na maszynie) to type- pisać wzory na tablicy to write formulae on the blackboard- ona ładnie/brzydko pisze her handwriting is good/bad- pisać drobnym maczkiem to have minute handwriting, to write in a small hand- pisać z błędami ortograficznymi to make a lot of spelling mistakes- pisać ręcznie to write by hand- odręcznie pisana notatka a handwritten note- pisać na komputerze to write a. type on a computer- pisać po polsku/angielsku to write in Polish/English- pisać długopisem/ołówkiem to write in pen/pencil- daj mi coś do pisania (długopis, ołówek) give me sth to write with; (kartkę) give me sth to write on- przybory do pisania writing materials ⇒ napisać2. (tworzyć) to write- pisać wiersze/powieści/piosenki/opery to write poems/novels/songs/operas- pisać do gazet to write for the newspapers- żyć z pisania to make a living from writing- zarabiać na życie pisaniem to write for a living- tekst pisany po łacinie a text written in Latin- dużo pisał he wrote a lot- pisać o czymś a. na temat czegoś to write about sth- dobrze/źle pisać to write well/badly- pisać ciekawie/barwnie to write interestingly/vividly- piszę, co czuję I write what I feel- mieć łatwość pisania to write with ease ⇒ napisać3. (korespondować) to write- pisać list/skargę do kogoś to write a letter/letter of complaint to sb- pisać podanie o coś to apply for sth- pisać do kogoś to write to sb- pisać komuś o czymś to write to sb about sth- pisać do domu to write home- pisał, żebyśmy się nie martwili he wrote to us to say that we shouldn’t worry ⇒ napisać4. to report- prasa pisze, że… newspapers report that…- piszą o nim/tym wszystkie gazety he’s/it’s in all the papers ⇒ napisaćⅡ vi 1. (być piśmiennym) to (be able to) write- jeszcze nie umieją pisać they can’t write yet2. [długopis, pióro] to write- ten długopis nie pisze this pen doesn’t write- to pióro dobrze pisze this pen writes well3. kryt. (być napisanym) co tu pisze? what does it say here?- w książce pisze, że… it says in the book that…Ⅲ pisać się 1. [słowo, wyrażenie] to be spelled a. spelt- jak to się pisze? how do you spell it?- to się pisze rozłącznie it’s written as two words- to się inaczej pisze, a inaczej wymawia it’s pronounced differently from the way (that) it’s spelled2. (o nazwiskach) oni piszą się z niemiecka they spell their name in the German way 3. pot. (decydować się) pisać się na coś to be ready for sth- ja się na to nie piszę! I’m out of it! pot.- nie piszę się na taki wydatek I can’t afford to spend so much■ co było, a nie jest, nie pisze się w rejestr let bygones be bygones- to wszystko jest palcem na wodzie pisane it’s all up in the airThe New English-Polish, Polish-English Kościuszko foundation dictionary > pi|sać
-
65 lack
1. Iusually in the Continuous money is lacking не хватает /недостает/ денег; the necessary materials are lacking нет необходимых материалов; nothing is lacking все есть, всего достаточно2. IIIlack smth. lack money (capital, intelligence, learning, energy, etc.) испытывать недостаток в деньгах и т.д., lack beauty (brightness, ability, persistence, practice, etc.) не хватать красоты и т. д., he lacks confidence ему не хватает уверенности /апломба/; the curtains lack colour шторы очень блеклой расцветки; lack the necessities of life быть лишенным предметов первой необходимости; she lacks eloquence она лишена дара красноречия; I lack words with which to express my thanks у меня нет слов, чтобы выразить свою благодарность; he lacks experience ему недостает опыта; desert lacks water в пустыне нет воды; we lack nothing мы ни в чем не нуждаемся3. IVlack smth. to some extent what is still lacking?, what else is lacking? чего еще не хватает; he completely lacks conscience он начисто лишен совести, у него совсем нет совести4. VIIlack smth. to do smth. he lacked time to finish the job (the will-power to give up smoking, courage to ask the question, etc.) ему не хватало времени, чтобы закончить работу и т. д.5. XIIIbe lacking to do smth. usually in the Continuous three votes are lacking to make a majority для большинства /чтобы было большинство,/ не хватает трех голосов6. XVIlack in smth. usually in the Continuous they are lacking in courage (in common sense, in self-confidence, in self-control, in sagacity, etc.) им не хватает мужества и т. д.; your remarks are lacking in clearness в ваших замечаниях не хватает ясности; there is something lacking in his character в его характере чего-то недостает; lack for smth. money was lacking for the plan для осуществления плана не хватало денег; they lacked for nothing они ни в чем не нуждались -
66 план учебных занятий
Эти планы обычно готовятся преподавателем для отдельных учебных занятий. Они включают название занятия, цели обучения, время/продолжительность занятия, ресурсы (оборудование, учебные материалы) и методы обучения. — These plans are usually developed by the trainer for individual sessions. They include the title of the session, the learning objectives, time/duration of the session, resources (equipment, training materials) and training methods.
Russian-English Dictionary "Microeconomics" > план учебных занятий
-
67 свободный режим
Термин 'свободный режим' относится к гибким схемам, учитывающим не только индивидуальную форму обучения (нередко в индивидуальном темпе) на основе предварительно подготовленных курсовых материалов, но и продолжительность контакта с преподавателем и использование ресурсов. — The term 'fleximode' refers to flexible arrangements not only for individual (often self-paced) learning based on pre-produced course materials but also for teacher-contact time and the use of resources.
Russian-English Dictionary "Microeconomics" > свободный режим
-
68 Godowsky, Leopold Jr
SUBJECT AREA: Photography, film and optics[br]b. 27 May 1900 Chicago, Illinois, USA d. 1983[br]American musician and photographic experimenter whose researches, with those of his colleague Mannes, led to the introduction of the first commercial tripack colour film, Kodachrome.[br]Both from distinguished musical families, Godowsky and Leopold Damrosch Mannes met at Riverdale School in New York in 1916, and shared an interest in photography. They began experiments in methods of additive colour photography, gaining a patent for a three-colour projector. Godowsky went to the University of California to study chemistry, physics and mathematics, while working as a professional violinist; Mannes, a pianist, went to Harvard to study music and physics. They kept in touch, and after graduating they joined up in New York, working as musicians and experimenting in colour photography in their spare time.Initially working in kitchens and bathrooms, they succeeded in creating a two-layer colour photographic plate, with emulsions separately sensitized to parts of the spectrum, and patented the process. This achievement was all the greater since they were unable to make the emulsions themselves and had to resort to buying commercial photographic plates so that they could scrape off the emulsions, remelt them and coat their experimental materials. In 1922 their work came to the attention of C.E.K. Mees, the leading photographic scientist and Director of the Eastman Kodak Research Laboratory in Rochester, New York. Mees arranged for plates to be coated to their specifications. With a grant from Kuhn, Loeb \& Co. they were able to rent laboratory space. Learning of Rudolf Fischer's early work on dye couplers, they worked to develop a new process incorporating them. Mees saw that their work, however promising, would not develop in an amateur laboratory, and in 1930 he invited them to join the Kodak Research Laboratory, where they arrived on 15 June 1931. Their new colleagues worked on ways of coating multi-layer film, while Mannes and Godowsky worked out a method of separately processing the individual layers in the exposed film. The result was Kodachrome film, the first of the modern integral tripack films, launched on 15 April 1935.They remained with Eastman Kodak until December 1939; their work contributed to the later appearance of Ektachrome colour-reversal film and the Kodacolor and Eastman Color negative-positive colour processes. Mannes became the Director of his father's Music Academy in New York, remaining as such until his death in 1964. Godowsky returned to Westport, Connecticut, and continued to study mathematics at Columbia University. He carried out photographic research un his private laboratory up until the time of his death in 1983.[br]Further ReadingC.E.K.Mees, 1961, From Dry Plates to Ektachrome Film, New York.BC -
69 Guinand, Pierre Louis
SUBJECT AREA: Photography, film and optics[br]b. 20 April 1748 Brenets, Neuchâtel, Switzerlandd. 13 February 1824 Brenets, Neuchâtel, Switzerland[br]Swiss optical glassmaker.[br]Guinand received little formal education and followed his father's trade of joiner. He specialized in making clock cases, but after learning how to cast metals he took up the more lucrative work of making watch cases. When he was about 20 years old, in a customer's house he caught sight of an English telescope, a rarity in a Swiss mountain village. Intrigued, he obtained permission to examine it. This aroused his interest in optical matters and he began making spectacles and small telescopes.Achromatic lenses were becoming known, their use being to remove the defect of chromatic aberration or coloured optical images, but there remained defects due to imperfections in the glass itself. Stimulated by offers of prizes by scientific bodies, including the Royal Society of London, for removing these defects, Guinand set out to remedy them. He embarked in 1784 on a long and arduous series of experiments, varying the materials and techniques for making glass. The even more lucrative trade of making bells for repeaters provided the funds for a furnace capable of holding 2 cwt (102 kg) of molten glass. By 1798 or so he had succeeded in making discs of homogeneous glass. He impressed the famous Parisian astronomer de Lalande with them and his glass became well enough known for scientists to visit him. In 1805 Fraunhofer persuaded Guinand to join his optical-instrument works at Benediktheurn, in Bavaria, to make lenses. After nine years, Guinand returned to Brenets with a pension, on condition he made no more glass and disclosed no details of his methods. After two years these conditions had become irksome and he relinquished the pension. On 19 February 1823 Guinand described his discoveries in his classic "Memoir on the making of optical glass, more particularly of glass of high refractive index for use in the production of achromatic lenses", presented to the Société de Physique et d'Histoire Naturelle de Genève. This gives details of his experiments and investigations and discusses a suitable pot-clay stirrer and stirring mechanism for the molten glass, with temperature control, to overcome optical-glass defects such as bubbles, seeds, cords and colours. Guinand was hailed as the man in Europe who had achieved this and has thus rightly been called the founder of the era of optical glassmaking.[br]Further ReadingThe fullest account in English of Guinand's life and work is 'Some account of the late M. Guinand and of the discovery made by him in the manufacture of flint glass for large telescopes by F.R., extracted from the Bibliothèque Universelle des Sciences, trans.C.F.de B.', Quart.J.Sci.Roy.Instn.Lond. (1825) 19: 244–58.M.von Rohr, 1924, "Pierre Louis Guinand", Zeitschrift für Instr., 46:121, 139, with an English summary in J.Glass. Tech., (1926) 10: abs. 150–1.LRD -
70 Waterhouse, Major-General James
SUBJECT AREA: Photography, film and optics[br]b. 1841d. 28 September 1922[br]English military man and photographer.[br]Waterhouse spent most of his career in the Indian Army. In 1861–2 he was commissioned to photograph the tribes of central India, and over the next few years visited many parts of the subcontinent. In November 1866, after working for five months in the Great Trigonometrical Survey learning the process of photozincography (an early photomechanical process used chiefly for map making), he took charge of photographic operations at the Surveyor-General's office in Calcutta, a post he held until retiring in 1897. During this time he developed many improvements in the photomechanical methods used for reproduction in his office. He also experimented with methods of colour-sensitizing photographic materials, experimenting with eosine dye and publishing in 1875 the fact that this made silver halide salts sensitive to yellow light. He also discovered that gelatine dry plates could be made sensitive to red and infra-red illumination by treatment with alizarine blue solution.He continued his researches upon his retirement and return to England in 1897, and made a special study of the early history of the photographic process. His work on dye sensitizing brought him the Progress Medal of the Royal Photographic Society, and the Vienna Photographic Society awarded him the Voigtländer Medal for researches in scientific photography. One invention often erroneously attributed to him is the Waterhouse stop, the use of a series of perforated plates as a means of adjusting the aperture of a photographic lens. This was described in 1858 by a John Waterhouse, being his only contribution to photography.BCBiographical history of technology > Waterhouse, Major-General James
-
71 lesson
"A unit of learning that addresses a portion of the content for a class and may include assignments, materials, and other lessons."
См. также в других словарях:
Learning Resource Centers — Information and communication development opportunities and information flow are the big challenges dedicated review most of educational questions, whether from theoretical frames or material facilitations. School libraries are considered one of… … Wikipedia
Learning object metadata — is a data model, usually encoded in XML, used to describe a learning object and similar digital resources used to support learning. The purpose of learning object metadata is to support the reusability of learning objects, to aid discoverability … Wikipedia
Materials informatics — is a field of study that applies the principles of informatics to materials science and engineering to better understand the use, selection, development, and discovery of materials. This is an emerging field, with a goal to achieve high speed and … Wikipedia
Learning Resource Centre — (LRC) is a term which is used in the United Kingdom to describe a type of library that exists within an educational setting such as Secondary Schools, Further Education Colleges and Universities. LRC can also stand for Library Resource Centre and … Wikipedia
Learning center approach in American schools — The learning center strategy uses eight basic learning centers to address the countless objectives of American early childhood classrooms, attempting to develop the student’s social, emotional, physical, cognitive, and aesthetic abilities. There… … Wikipedia
Materials science — Simulation of the outside of the Space Shuttle as it heats up to over 1,500 °C (2,730 °F) during re entry into the Earth s atmosphere Materials science is an interdisciplinary field applying the properties of matter to various areas of… … Wikipedia
Learning to read — Part of a series on Reading … Wikipedia
Learning object — A learning object is a collection of content items, practice items, and assessment items that are combined based on a single learning objective .[1] The term is credited to Wayne Hogins when he created a working group in 1994 bearing the name [2] … Wikipedia
learning theory — ▪ psychology Introduction any of the proposals put forth to explain changes in behaviour produced by practice, as opposed to other factors, e.g., physiological development. A common goal in defining any psychological (psychology)… … Universalium
Learning management system — A Learning Management System. (LMS) is software for delivering, tracking and managing training. LMSs range from simple systems for managing training records to software for distributing courses over the Internet and offering features for online… … Wikipedia
Learning for Life — Infobox WorldScouting owner = Boy Scouts of America type = organization name = Learning for Life headquarters = Irving, Texas country = United States f date = 1992 members = 1,750,767 youth 61,041 adults (2006) [cite web… … Wikipedia