do-while+loop

Pile

PILE

The yarn which forms the face of fabrics such as velvets, velveteens, terry, etc. There are several varieties, viz., warp pile, weft pile, and knotted pile, and cut, loop or curl pile. Warp Pile is formed by an extra warp additional to and much longer than the ground warp. The pile threads are woven over wires which, when removed, leave loops either uncut or cut. This system is used for wool and silk velvets and many carpets, rugs, etc. Terry fabrics have looped pile formed by weaving without wires. Weft Pile is formed by weft floats which are cut after the cloth is woven to make the pile as seen in velveteens, corduroys, etc. Knotted Pile is made by hand by knotting short lengths of yarn to the warp threads. Design is formed by using pile threads of different colours. After the rug or carpet is woven the pile is trimmed to a uniform length. Curl Pile is produced by weaving two kinds of yarn in the same cloth, a non-shrinking yarn being floated loosely on the surface while a yarn that shrinks readily is interwoven closely. When the cloth is shrunk the unshrinking yarn forms curls on the surface, as in astrakhans.

разворот

turn
изменение направления полета самолета от своего первоначального курса, обычно выражаемое в градусах. например, разворот на 45о означает, что направление полета изменено на 45о от предыдущего. — the change in the direction of flight of an aircraft and most often is referred to as а specific degree of turn, i.e., а 45о turn is considered to be а change of direction of 45о, etc.
- (классификация разворотов) — turns classification: gentle, medium, precision, steep, vertical
- без крена — wings-level turn
- без скольжения — true-banked turn
- вокруг одной основной стойки (с заторможенными колесами данной стойки) — pivoting. the airplane is assumed to pivot about one side of the main gear with the brakes on that side locked.
-, второй (при заходе на посадку no прямоугольномумаршруту или "коробочке") (рис. 117) — turn on /to/ downwind leg, downwind turn. а turn that makes an airplane downwind.
- для обзора окружающего пространства (во избежание столкновений с др. ла или препятствиями) — clearing turns. do not forget clearing turns prior to fly into traffic pattern.
- для определения безопасности воздушной обстановки — clearing turns
- "змейка" (во избежание столкновений с др. ла или препятствиями) — clearing turns
- "змейкой" — s-turn
-, координированный — coordinated turn
разворот без (наружного и внутреннего) скольжения с заданным креном. — а non-slipping, non-skidding and properly banked turn.
-, крутой — steep turn
разворот с креном от 45 до 70о. — а flight maneuver in which the degree of bank varies from 45о to about 70о.
-, левосторонний (левый) — left-hand turn
- на висении — hovering turn
- на "горке" — candelle

the candelle is an abrupt and steep climbing turn. it is a combination of climb and turn.
- на (45) градусов — (45-) degree turn, (45о) turn
- на земле — turn on the ground
- на курс — rollout on heading
указатель крена обеспечивает дополнительную индикацию для плавного выхода на заданный курс. — the bank indicator provides additional aid for a smooth rollout on the selected heading.
- на курс, плавный — smooth rollout on heading
- на курс, правый (левый) — right (left) rollout on heading
- на планировании — gliding turn
- на посадочную прямую — rollout on final
- на посадочный курс — base turn
разворот при предпосадочном маневре между концом участка после второго разворота (полет от впп) н началом выхода на посадочную прямую (рис. 117). — а turn executed by the aircraft during the intermediate approach between the end of the outbound track and the beginning of the final approach track. these tracks are not reciprocal.
- на противопосадочный курс (при предпосадочном маневре) (рис. 117) — downwind turn
- на угол (10о) — turn through (10о)
-, первый (рис. 117) — turn on crosswind leg
- переднего колеса шасси — nose wheel steering
-, поздний — overshoot turn
-, поздний (на луч курсового маяка) — overshoot intersection (of localizer beam)
-, поздний (на луч станции вор) — overshoot intersection (of vor radial)
- no курсу, самопроизвольный (при рулежке, посадке, при взлете) — swing. involuntary deviation of an aircraft from a straight course while taxiing, alighting or taking-off.
-, полный — complete turn
-, пологий (от о до 25о) — gentle /shallow/ turn
- (ла) no потоку (в полете) — weathercock
тенденция ла устанавливать в полете свою продельную ось в линию с направлением ветра. — the tendency of an airplane to align its longitudinal axis with the direction of wind.
- (ла) по потоку (на земле или воде) — weathervane
тенденция ла на земле или воде к развороту носом на ветер. — the tendency of аn airplane оn the ground or water to face into the wind.
- no приборам — instrument turn
-, последний (при предпосадочном маневре) — last turn
-, правосторонний (правый) — right-hand turn
- при планировании — gliding turn

gliding turn is a combination of glide and turn.
-, ранний — undershoot turn
-, ранний (на луч крм или станции вор) — undershoot intersection (of localizer beam or vor radial)
-, резкий — abrupt turn
- самолета на земле (в конце посадки) вокруг одной основной стойки шасси с задеванием законцовки крыла о землю) — ground loop. the airplane ground-loops when pivoting on one wheel dragging а wing tip along the ground.
- самолета (на земле) относительно одной (неподвижной) основной опоры шасси — aircraft turning about а main landing gear unit
- с внешним скольжением — skidding turn
- с внутренним скольжением — slip(ping) turn
- с выходом на посадочный курс (рис. 117) — base turn
- с выходом на посадочную прямую — rollout on final
- с выходом на посадочную прямую (четвертый разворот при заходе на посадку по "коробочке") (рис. 117) — turn on final, final turn
- с креном — banked turn
- с креном 30о — 30-degree banked turn
сваливание должно быть продемонстрировано при прямолинейном полете с креном 30о. — stalls must be shown in straight flight and in 30-degree banked turns.
- с креном внутрь — inside turn
- с креном до 90о — vertical turn
- с креном наружу — outside turn
- с набором высоты — climbing turn
- с наружным скольжением — skid(ding) turn
- со средними углами крена (25-45о) — medium turn (25-45о)
- со скольжением на крыло — slipping turn
- со снижением — descending turn
- с перегрузкой (1,5) — (1,5)-g turn
- с постоянной перегрузкой — constant-g turn
- с пролетом расчетной точки (разворота) — overshoot(ing) turn. overshooting the turn on final approach may occur with higher pattern speed.
-, стандартный (при заходе на посадку для выхода на посадочный курс) — procedure turn
выход на посадочную прямую является частью захода на посадку по приборам с момента завершения стандартного или третьего разворота. — final approach is that part of an instrument approach procedure from the time the aircraft has completed the last procedure turn or base turn, where one is specified.
- с упреждением — lead(-type) turn
-, точный — precision turn
-, третий (при заходе на посадку no "коробочке") (рис. 117) — turn on(to) base leg
-, форсированный — power turn
-, четвертый (рис. 117) — turn on final
в конце р. — at the end of the turn
в начале р. — at the start of the turn
вход в р. — roll into turn
вход в третий р. — turning base
вход в четвертый разворот — rollout on final
выход из р. — recovery from turn, roll out of turn
после (выполнения) первого (второго, третьего) р. — (be) on crosswind (downwind, base) leg
продолжительность p. — duration of turn
точка начала р. — initial point of turn
угол p. (ла) — angle of turn
угол p. (носового колеса) — (nose wheel) steering angle
упреждение р. — turn anticipation /lead/
входить в р. — initiate /enter, establish, roll into/ the turn
входить в четвертый р. — roll out on final
выпопнять p. — execute /make/ turn
выполнять p. с... краткой (положительной) перегрузкой — pull... g turn
выполнять второй р. — turn on downwind leg, turn downwind
выполнять первый р. — turn on erosswind leg, turn сrosswind
выполнять поздний р. (на луч курсового маяка) — overshoot (localizer beam)
выполнять ранний р. (на луч крм) — undershoot (localizer beam)
выполнять третий р. — turn on base leg
выполнять четвертый р. — turn on final
выходить из р. — roll out of turn
выходить на третий р. (при посадке) — roll out on /join/ base (leg)
выходить на четвертый р. — roll out on final
завершать р. — complete the turn
запрашивать разрешение на (правый) p. после взлета — request permission for (right) turn after takeoff
затягивать p. — delay the turn
начинать p. — initiate the turn
подходить ко второму (третьему, четвертому) р. с правым (или левым) разворотом — be on right (left) crosswind (downwind, base) leg
продолжать летать после втоporо p. (до получения команды) — extend downwind leg (until advised)
уменьшать радиус р. — tighten the turn

Appleby, John F.

SUBJECT AREA: Agricultural and food technology

[br]

b. 1840 New York, US A

d. ? USA

[br]

American inventor of the knotting mechanism used on early binders and still found on modern baling machines.

[br]

As a young man John Appleby worked as a labourer for a farmer near Whitewater in Wisconsin. He was 18 when the farmer bought a new reaping machine. Appleby believed that the concept had not been progressed far enough and that the machine should be able to bind sheaths as well as to cut the corn. It is claimed that while watching a dog playing with a skipping rope he noticed a particular knot created as the dog removed its head from the loop that had passed over it, and recognized the potential of the way in which this knot had been formed. From a piece of apple wood he carved a device that would produce the knot he had seen. A local school teacher backed Appleby's idea with a $50 loan, but the American Civil War and service in the Union Army prevented any further development until 1869 when he took out a patent on a wire-tying binder. A number of the devices were made for him by a company in Beloit. Trials of wire binders held in 1873 highlighted the danger of small pieces of wire caught up in the hay leading to livestock losses. Appleby looked again at the possibility of twine. In 1875 he successfully operated a machine and the following season four were in operation. A number of other developments, not least Behel's "bill hook" knotting device, were also to have an influence in the final development of Appleby's twine-tying binder. As so often happens, it was the vision of the entrepreneur which ultimately led to the success of Appleby's device. In 1877 Appleby persuaded William Deering to produce and market his binder, and 3,000 twine binders, together with the twine produced for them, were put on the market in 1880, with immediate success. Over the next dozen years all harvesting-machine manufacturers adopted the idea, under licence to Appleby.

[br]

Further Reading

G.Quick and W.Buchele, 1978, The Grain Harvesters, American Society of Agricultural Engineers (provides an account of the development of harvesting machinery and the various tying devices developed for them).

1927, "Twine knotter history", Wisconsin Magazine of History (a more specific account).

AP

Dickson, William Kennedy Laurie

SUBJECT AREA: Photography, film and optics

[br]

b. August 1860 Brittany, France

d. 28 September 1935 Twickenham, England

[br]

Scottish inventor and photographer.

[br]

Dickson was born in France of English and Scottish parents. As a young man of almost 19 years, he wrote in 1879 to Thomas Edison in America, asking for a job. Edison replied that he was not taking on new staff at that time, but Dickson, with his mother and sisters, decided to emigrate anyway. In 1883 he contacted Edison again, and was given a job at the Goerk Street laboratory of the Edison Electric Works in New York. He soon assumed a position of responsibility as Superintendent, working on the development of electric light and power systems, and also carried out most of the photography Edison required. In 1888 he moved to the Edison West Orange laboratory, becoming Head of the ore-milling department. When Edison, inspired by Muybridge's sequence photographs of humans and animals in motion, decided to develop a motion picture apparatus, he gave the task to Dickson, whose considerable skills in mechanics, photography and electrical work made him the obvious choice. The first experiments, in 1888, were on a cylinder machine like the phonograph, in which the sequence pictures were to be taken in a spiral. This soon proved to be impractical, and work was delayed for a time while Dickson developed a new ore-milling machine. Little progress with the movie project was made until George Eastman's introduction in July 1889 of celluloid roll film, which was thin, tough, transparent and very flexible. Dickson returned to his experiments in the spring of 1891 and soon had working models of a film camera and viewer, the latter being demonstrated at the West Orange laboratory on 20 May 1891. By the early summer of 1892 the project had advanced sufficiently for commercial exploitation to begin. The Kinetograph camera used perforated 35 mm film (essentially the same as that still in use in the late twentieth century), and the kinetoscope, a peep-show viewer, took fifty feet of film running in an endless loop. Full-scale manufacture of the viewers started in 1893, and they were demonstrated on a number of occasions during that year. On 14 April 1894 the first kinetoscope parlour, with ten viewers, was opened to the public in New York. By the end of that year, the kinetoscope was seen by the public all over America and in Europe. Dickson had created the first commercially successful cinematograph system. Dickson left Edison's employment on 2 April 1895, and for a time worked with Woodville Latham on the development of his Panoptikon projector, a projection version of the kinetoscope. In December 1895 he joined with Herman Casier, Henry N.Marvin and Elias Koopman to form the American Mutoscope Company. Casier had designed the Mutoscope, an animated-picture viewer in which the sequences of pictures were printed on cards fixed radially to a drum and were flipped past the eye as the drum rotated. Dickson designed the Biograph wide-film camera to produce the picture sequences, and also a projector to show the films directly onto a screen. The large-format images gave pictures of high quality for the period; the Biograph went on public show in America in September 1896, and subsequently throughout the world, operating until around 1905. In May 1897 Dickson returned to England and set up as a producer of Biograph films, recording, among other subjects, Queen Victoria's Diamond Jubilee celebrations in 1897, Pope Leo XIII in 1898, and scenes of the Boer War in 1899 and 1900. Many of the Biograph subjects were printed as reels for the Mutoscope to produce the "what the butler saw" machines which were a feature of fairgrounds and seaside arcades until modern times. Dickson's contact with the Biograph Company, and with it his involvement in cinematography, ceased in 1911.

[br]

Further Reading

Gordon Hendricks, 1961, The Edison Motion Picture Myth.

—1966, The Kinetoscope.

—1964, The Beginnings of the Biograph.

BC

ilme

"1. tying (one thing) loosely to (another). 2. basting (one piece of cloth) to (another). 3. basting stitch. 4. loop. 5. knot (in the fabric of a carpet). 6. knotting (strands of wool) (while weaving a rug). 7. touching; hitting; landing on (someone, something). "

ilmiklemek

1. /ı/ to tie (something) into a loop or noose. 2. /ı, a/ to tie (one thing) loosely to (another). 3. /ı/ to knot (strands of wool), tie (strands of wool) into a knot (while weaving a rug).

ilmiklenmek

1. to be tied into a loop or noose. 2. /a/ (for one thing) to be tied loosely to (another). 3. (for strands of wool) to be tied into a knot (while weaving a rug).

расширение языка SQL

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расширение языка SQL
Процедурное расширение языка SQL фирмы Oracle. В PL/SQL скомбинированы легкость и гибкость SQL с процедурными функциональными возможностями структурного языка программирования, как, например, IF...THEN, WHILE и LOOP. Даже если программа на PL/SQL не хранится в базе данных, приложения могут отправлять в базу не отдельные SQL-операторы, а блоки PL/SQL, уменьшая таким образом сетевой трафик
[ http://www.morepc.ru/dict/]

Тематики

• информационные технологии в целом

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