-
1 hydrogen-fuelled aircraft
гиперзвуковой ЛА на (жидком) водородеАнгло-русский словарь технических терминов > hydrogen-fuelled aircraft
-
2 hydrogen-fuelled aircraft
2) Макаров: гиперзвуковой ЛА на (жидком) водородеУниверсальный англо-русский словарь > hydrogen-fuelled aircraft
-
3 hydrogen-fuelled aircraft
English-Ukrainian dictionary of aviation terms > hydrogen-fuelled aircraft
-
4 aircraft
to accommodate an aircraft — размещать воздушное судно ( на аэродроме);to align the aircraft — устанавливать воздушное судно по указанному курсу;to bring the aircraft back — возвращать воздушное судно ( на установленный курс);to bring the aircraft in — вводить воздушное судно в крен;to bring the aircraft out — выводить воздушное судно из крена;to charter an aircraft — фрахтовать воздушное судно;to consider an aircraftserviceable — допускать воздушное судно к дальнейшей эксплуатации;to cover an aircraft — зачехлять воздушное судно;to endanger an aircraft — создавать опасность для воздушного судна;to enter the aircraft — заносить воздушное судно в реестр ( авиакомпании),to head an aircraft into wind — направлять воздушное судно против ветра;to identify an aircraft — опознавать воздушное судно;to install in the aircraft — устанавливать на борту воздушного судна ( внутри фюзеляжа);to join an aircraft — совершать посадку на борт воздушного судна;to level an aircraft out — выравнивать воздушное судно ( на заданной высоте); устанавливать воздушное судно в горизонтальное положение;to make an aircraft airborne — отрывать воздушное судно от земли;to operate an aircraftsafely — безопасно эксплуатировать воздушное судно;to pull an aircraft — 1. брать штурвал на себя 2. выводить воздушное судно из пикирования;to release the aircraft — прекращать( диспетчерский) контроль ( за полётом) воздушного судна, разрешать воздушному судну выйти из зоны контроля;to return the aircraft to service — допускать воздушное судно к дальнейшей эксплуатации;to roll in the aircraft — вводить воздушное судно в крен;to roll out the aircraft — 1. выводить воздушное судно из крена 2. выкатывать воздушное судно (напр. из ангара);to rotate the aircraft — отрывать (поднимать) переднюю опору шасси воздушного судна ( при взлёте),to steer an aircraft — вести воздушное судно, управлять воздушным судном ( при рулении);aircraft under control — управляемое ( экипажем) воздушное судно-
abandoned aircraft
-
accelerator aircraft
-
active-cooling hypersonic aircraft
-
aerodynamically balanced aircraft
-
airborne aircraft
-
all-body aircraft
-
all-cargo aircraft
-
all-purpose aircraft
-
all-weather aircraft
-
all-wing aircraft
-
amphibian aircraft
-
authorized aircraft
-
balanced aircraft
-
baseline aircraft
-
basic aircraft
-
boost-glide aircraft
-
business aircraft
-
canard aircraft
-
cargo aircraft
-
chartered aircraft
-
cleared aircraft
-
combination aircraft
-
conventional takeoff and landing aircraft
-
convertible aircraft
-
derived aircraft
-
environmentally attuned aircraft
-
fixed-wing aircraft
-
folding-wing aircraft
-
forest patrol aircraft
-
freight aircraft
-
fuel-conservative aircraft
-
heavier-than-air aircraft
-
high-capacity aircraft
-
high-wing aircraft
-
hospital aircraft
-
hydrogen-fuelled aircraft
-
improperly loaded aircraft
-
in-coming aircraft
-
in-service aircraft
-
interchanged aircraft
-
inward aircraft
-
irrepairable aircraft
-
jet aircraft
-
laser-powered aircraft
-
laser aircraft
-
licensed aircraft
-
lighter-than-air aircraft
-
long-bodied aircraft
-
long-range aircraft
-
low annoyance aircraft
-
low-wing aircraft
-
methane-fuelled aircraft
-
minishuttle launcher aircraft
-
missing aircraft
-
modified aircraft
-
multiengined aircraft
-
NASP aircraft
-
nearly invisible aircraft
-
nonnoise certificated aircraft
-
oncoming aircraft
-
outbound aircraft
-
out-of-balance aircraft
-
outward aircraft
-
passive-cooling hypersonic aircraft
-
piston-engined aircraft
-
pressurized aircraft
-
reduced takeoff and landing aircraft
-
rotary-wing aircraft
-
school aircraft
-
search aircraft
-
short takeoff and landing aircraft
-
short-range aircraft
-
solar powered aircraft
-
state aircraft
-
stayed afloat aircraft
-
stretched aircraft
-
subsonic aircraft
-
supersonic aircraft
-
training aircraft
-
transonic aircraft
-
twin-fuselage aircraft
-
under command aircraft
-
underway aircraft
-
unlawfully seized aircraft
-
unpressurized aircraft
-
vertical takeoff and landing aircraft
-
wide-body aircraft -
5 aircraft
(мн. aircraft)1. n1) літальний апарат, ЛА; повітряне судно, ПС; літак; вертоліт, гелікоптер; проф. борт2) збірн. авіація2.◊aircraft in distress — ПС, що зазнає лиха
aircraft in missing — ПС, що зникло безвісти
aircraft in service — ПС, що експлуатується
aircraft is considered to be missing — ПС вважається таким, що зникло безвісти
aircraft on register — ПС, занесене до реєстру авіакомпанії
aircraft requiring assistance — ПС, що потребує допомоги
aircraft under command — ПС, кероване (диспетчерською службою)
aircraft under control — ПС, кероване (екіпажем)
to decelerate the aircraft to... — знижувати швидкість ПС до...
to fly an aircraft — пілотувати ПС; керувати повітряним судном
to follow up the aircraft — супроводжувати ПС; забезпечувати контроль польоту ПС
to install on the aircraft — монтувати [установлювати] на повітряному судні (напр. на крилі)
to land the aircraft — саджати [приземляти] ПС
to level the aircraft out — вирівнювати ПС (на заданій висоті); установлювати ПС у горизонтальне положення
to pull an aircraft — 1) брати штурвал на себе; 2) виводити ПС з пікірування
to reequip an aircraft — переобладнувати ПС; заміняти [замінювати] обладнання ПС
to release the aircraft — припиняти диспетчерський контроль (за польотом) повітряного судна; дозволити повітряному судну вийти з зони контролю
to restore an aircraft — відновлювати [(від)ремонтувати] ПС
to return the aircraft to flyable status — приводити ПС у стан льотної готовності (шляхом технічного доопрацювання)
to roll out the aircraft — 1) виводити ПС із крену; 2) викочувати ПС (з ангару)
to rotate an aircraft — відривати [піднімати] передню опору шасі повітряного судна (під час зльоту)
to steer an aircraft — вести ПС; керувати повітряним судном (під час руління)
to substitute the aircraft — заміняти [замінювати] ПС (на інше)
to trim the aircraft — балансувати [тримерувати] ПС
to vend an aircraft — поставляти [постачати] ПС (експлуатанту)
to warn the aircraft — попереджати [попереджувати] ПС (про небезпеку); остерегти [застерегти ] ПС (від небезпеки)
•- accelerator aircraft - active aircraft - active-cooling hypersonic aircraft - aerodynamically balanced aircraft - airborne aircraft - all-body aircraft - all-cargo aircraft - all-metal aircraft - all-purpose aircraft - all-weather aircraft - all-wing aircraft - ambulance aircraft - amphibian aircraft - approaching aircraft - arriving aircraft - attack aircraft - authorized aircraft - balanced aircraft - baseline aircraft - basic aircraft - boost-glide aircraft - business aircraft - canard aircraft - cargo aircraft - chartered aircraft - civil aircraft - clean aircraft - cleared aircraft - combat aircraft - combination aircraft - commuter-size aircraft - conflicting aircraft - conventional takeoff and landing aircraft - convertible aircraft - critical aircraft - damaged aircraft - delta-wing aircraft - departing aircraft - derived aircraft - disabled aircraft - double-decker aircraft - eastbound aircraft - enemy aircraft - entire aircraft - environmentally attuned aircraft - executive aircraft - experimental aircraft - feeder aircraft - first-generation aircraft - fixed-wing aircraft - fly-by-wire aircraft - folding-wing aircraft - following aircraft - forest patrol aircraft - forestry surveillance aircraft - freight aircraft - friendly aircraft - fuel-conservative aircraft - full-scale aircraft - general aircraft - general-purpose aircraft - handy aircraft - heavier-than-air aircraft - heavy aircraft - heavy transport aircraft - high-altitude aircraft - high-capacity aircraft - high-speed aircraft - high-time aircraft - high-wing aircraft - holding aircraft - hospital aircraft - hushkitted aircraft - hypersonic aircraft - hydrogen-fuelled aircraft - improperly loaded aircraft - inbound aircraft - in-coming aircraft - in-flight aircraft - in-service aircraft - instructional aircraft - interchanged aircraft - intruder aircraft - intruding aircraft - inward aircraft - irrepairable aircraft - jet aircraft - laden aircraft - land aircraft - land-based aircraft - laser-powered aircraft - leased aircraft - licensed aircraft - lift-fuselage aircraft - light aircraft - lighter-than-air aircraft - litter aircraft - long-bodied aircraft - long-distance aircraft - long-haul aircraft - long-range aircraft - long-range search aircraft - low annoyance aircraft - low-wing aircraft - mail-carrying aircraft - making way aircraft - manned aircraft - medium-range cargo aircraft - medium-range search aircraft - methane-fuelled aircraft - mid-wing aircraft - military aircraft - minishuttle launcher aircraft - missing aircraft - modern aircraft - modified aircraft - mother aircraft - multicrew aircraft - multi-engine aircraft - multiengined aircraft - multipurpose aircraft - narrow-body aircraft - NASP aircraft - nearly invisible aircraft - nonnoise certificated aircraft - oncoming aircraft - one-engined aircraft - originating aircraft - outbound aircraft - outdated aircraft - out-of-balance aircraft - outward aircraft - overweight aircraft - owner-operated aircraft - parked aircraft - passenger aircraft - passive-cooling hypersonic aircraft - patrol aircraft - piloted aircraft - piston aircraft - piston-engined aircraft - piston-powered aircraft - practice aircraft - preceding aircraft - preproduction aircraft - pressurized aircraft - production aircraft - profitable aircraft - prop-driven aircraft - propeller-driven aircraft - prototype aircraft - quiet aircraft - receiver aircraft - reconnaissance aircraft - reduced takeoff and landing aircraft - regular-body aircraft - research aircraft - rotary wing aircraft - RTOL aircraft - school aircraft - search aircraft - short-range aircraft - short-range search aircraft - short takeoff and landing aircraft - single-engine aircraft - small-size aircraft - solar powered aircraft - state aircraft - stayed afloat aircraft - stealth aircraft - STOL aircraft - stretched aircraft - subsonic aircraft - supersonic aircraft - training aircraft - transonic aircraft - transport aircraft - turboprop aircraft - twin-engine aircraft - twin-fuselage aircraft - ultra-large aircraft - under command aircraft - underway aircraft - unidentified aircraft - unlawfully seized aircraft - unmanned aircraft - unpressurized aircraft - used aircraft - vectored-thrust aircraft - vertical takeoff and landing aircraft - very long-range search aircraft - VTOL aircraft - widebody aircraft -
6 Goddard, Dr Robert Hutchings
SUBJECT AREA: Aerospace[br]b. 5 October 1882 Worcester, Massachusetts, USAd. 10 August 1945 Baltimore, Maryland, USA[br]American inventory developer of rocket propulsion.[br]At the age of seventeen Goddard climbed a tree and, seeing the view from above, he became determined to make some device with which to ascend towards the planets. In an autobiography, published in 1959 in the journal Astronautics, he stated, "I was a different boy when I descended the ladder. Life now had a purpose for me." His first idea was to launch a projectile by centrifugal force, but in 1909 he started to design a rocket that was to be multi-stage and fuelled by liquid oxygen and hydrogen. Not long before the First World War he produced a report, "A method of reaching extreme altitudes", which was for the Smithsonian Institution and was published in book form in 1919. During the war he worked on solid-fuelled rockets as weapons. His book contained notes on the amount of fuel required to raise 1 lb (454 g) of payload to an infinite altitude. He incurred ridicule as "the moon man" when he proposed the use of flash powder to indicate successful arrival on the moon. In 1923 he severed his connections with military work and returned to the University of Massachusetts. On 16 March 1926 he launched the world's first liquid-fuelled rocket from his aunt's farm in Auburn, Massachusetts; powered by gasoline and liquid oxygen, it flew to a height of 12 m (40 ft) and travelled 54 m (177 ft) in 2.4 seconds.In November 1929 he met the aviator Charles Lindbergh, who persuaded both the Guggenheim Foundation and the Carnegie Institute to support Goddard's experiments financially. He moved to the more suitable location of the Mescalere Ranch, near Roswell, New Mexico, where he worked until 1941. His liquid-fuelled rockets reached speeds of 1,100 km/h (700 mph) and heights of 2,500 m (8,000ft). He investigated the use of the gyroscope to steady his rockets and the assembly of power units in clusters to increase the total thrust. In 1941 he moved to the naval establishment at Annapolis, Maryland, working on liquid-fuelled rockets to assist the take-off of aircraft from carriers. He worked for the US Government on this and the development of military rockets until his death from throat cancer in 1945. In all, he was granted 214 patents, roughly three per year of his life.In 1960 the US Government admitted infringement of Goddard's patents during the rocket programme of the 1950s and awarded his widow a payment of $1,000,000, while the National Aeronautics and Space Administration (NASA) honoured him by naming the Goddard Spaceflight Center near Washington, DC, after him. The Goddard Memorial Library at Clark University, in his home town of Worcester, Massachusetts, was also named in his honour.[br]Further ReadingA.Osman, 1983, Space History, London: Michael Joseph. P.Marsh, 1985, The Space Business, Harmondsworth: Penguin.K.C.Parley, 1991, Robert H.Goddard, Englewood Cliffs, NJ: Silver Burdett Press. T.Streissguth, 1994, Rocket Man: The Story of Robert Goddard, Minneapolis: Carolrhoda Books.IMcNBiographical history of technology > Goddard, Dr Robert Hutchings
См. также в других словарях:
Hydrogen-powered aircraft — In 2008, The Boeing Fuel Cell Demonstrator achieved straight level flight on a manned mission powered by a hydrogen fuel cell.[1] A hydrogen powered aircraft is an airplane that uses hydrogen as a power source … Wikipedia
Hydrogen planes — are airplanes that use hydrogen as a fuel source.As an alternative to jet fuel, hydrogen has a higher energy density per unit mass but a lower energy density per unit volume , and containing the hydrogen at high pressure would require a heavy… … Wikipedia
Timeline of hydrogen technologies — A timeline of the history of hydrogen technology.Timeline1600s* 1625 First description of hydrogen by Johann Baptista van Helmont. First to use the word gas . * 1650 Turquet de Mayerne obtained by the action of dilute sulphuric acid on iron a gas … Wikipedia
Airbreathing jet engine — An airbreathing jet engine (or ducted jet engine) is a jet engine propelled by a jet of hot exhaust gases formed from air that is drawn into the engine via an inlet duct. All practical airbreathing jet engines are internal combustion engines that … Wikipedia
Scramjet programs — This page describes a number of research and testing programs for the development of supersonic combustion ramjets (scramjets) Many of these programs have their own pages, but an attempt is made here to provide a short overview of a large number… … Wikipedia
Spaceplane — A Space Shuttle rocketing into space, just after booster separation. A spaceplane is a vehicle that operates as an aircraft in Earth s atmosphere, as well as a spacecraft when it is in space. It combines features of an aircraft and a spacecraft,… … Wikipedia
Reusable launch system — A reusable launch system (or reusable launch vehicle, RLV) is a launch system which is capable of launching a launch vehicle into space more than once. This contrasts with expendable launch systems, where each launch vehicle is launched once and… … Wikipedia
Concorde — For other uses, see Concorde (disambiguation). Concorde Role Supersonic airliner … Wikipedia
S-IVB — Infobox rocket stage name = S IVB caption = S IVB 206 which was used for the Skylab 2 flight manufacturer = Douglas country = USA rockets = Saturn IB (stage 2) Saturn V (stage 3) height = 17.8 m alt height = 58.4 ft diameter = 6.6 m alt diameter … Wikipedia
George Mueller (NASA) — George Mueller (b. July 16, 1918 [ [http://www.astronautix.com/astros/mueller.htm Astronautix biography] ] ) was hailed as one of NASA s most brilliant and fearless managers. [cite book first = Piers last = Bizony title = The Man Who Ran the Moon … Wikipedia
Alan Bond (rocket developer) — Alan Bond (born 1944) is Managing Director of Reaction Engines Ltd [http://www.reactionengines.co.uk] and associated with Project Daedalus, Blue Streak missile, HOTOL, Skylon and the Reaction Engines A2 hypersonic passenger aircraft.Alan Bond is… … Wikipedia