「geosynchronous」の共起表現一覧(1語右で並び替え)

geosynchronous

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  • d its orbital slot (at 111 degrees) in the geosynchronous arc and successfully deployed its 18 meter
  • ed in Lagos Harbor via Syncom 2, the first geosynchronous communication satellite.
  • It became the first African geosynchronous communication satellite, when it was launc
  • Nilesat 102 is an Egyptian owned geosynchronous communications satellite that was launched
  • Syncom - first geosynchronous communications satellite
  • Nimiq-4 is a Canadian geosynchronous communications satellite.
  • Syncom 1 was to be the first geosynchronous communications satellite.
  • the elliptical orbit to the 22,300 mi high geosynchronous orbit desired for TDRS-1.
  • 0N engine then raised it to an operational geosynchronous orbit and placed it at a longitude of 125°
  • Abbrevations key: Escape orbit (C3), Geosynchronous orbit (GEO), Geostationary transfer orbit
  • nch and on-orbit testing, it was placed in geosynchronous orbit at 11° West, from where it provides
  • telligence) gathering satellite headed for geosynchronous orbit like those launched by STS-51-C and
  • (or Geostationary Earth Orbit - GEO) is a geosynchronous orbit directly above the Earth's equator (
  • TDRS-1 was to be raised to its operational geosynchronous orbit by means of an Inertial Upper Stage,
  • Cape Canaveral, but was lost on the way to geosynchronous orbit due to an electronics failure.
  • rweight, a cable would be lowered from the geosynchronous orbit to the surface of Earth while the co
  • It will replace AMOS-1 in geosynchronous orbit at 4°W.
  • Its insertion into geosynchronous orbit occurred at 16:30 on 2 January 2000.
  • near-Earth asteroid that will pass within geosynchronous orbit in 2029.
  • Its insertion into geosynchronous orbit occurred at 20:00 on 24 May 2004.
  • Arabsat 1B was placed into a geosynchronous orbit at a longitude of 26° East.
  • China has launched polar orbit and geosynchronous orbit meteorological satellites since 1988
  • atellite in this group was launched into a geosynchronous orbit on April 8, 1984.
  • Its operational position is in geosynchronous orbit 35,800 kilometres (22,200 mi) above
  • Its operational position is in geosynchronous orbit 35,800 kilometres (22,200 mi) above
  • e two inspection satellites were lifted to geosynchronous orbit by a fourth stage of a new, experime
  • TDRS-G will reside in geosynchronous orbit at 22,300 miles (35,888 kilometers)
  • ic orbit whose apogee lies above that of a geosynchronous orbit (35,786 kilometres (22,236 mi)).
  • nch and on-orbit testing, it was placed in geosynchronous orbit at 145° East, from where it provides
  • microsatellite-based mission launched into geosynchronous orbit June 21, 2006 aboard a Delta II rock
  • It was launched into a geosynchronous orbit at 22:43 GMT on 18 August 2008, by a
  • six hours after launch, and was raised to geosynchronous orbit by means of an Inertial Upper Stage.
  • w motor fired to put the spacecraft into a geosynchronous orbit for operational use.
  • 14 has finally reached an inclined (13.1°) geosynchronous orbit at 34.8°East.
  • ted the feasibility of using satellites in geosynchronous orbit for meteorology.
  • rocket inserts the payload directly into a geosynchronous orbit, rather than leaving it in a geosync
  • upper stage placed Thor 5 directly into a geosynchronous orbit, eliminating the need for orbital ra
  • ystem which was intended to get as high as geosynchronous orbit, and was hoped to compete with NASA'
  • A special case of the geosynchronous orbit, the geostationary orbit, has an ecc
  • Following insertion into geosynchronous orbit, GOES 6 was positioned at 135° West.
  • It will be operated in geosynchronous orbit, at a longitude of 7º West.
  • In the case of an inclined geosynchronous orbit, although the satellite remains geos
  • By analogy with the geosynchronous orbit, a heliosynchronous orbit is a helio
  • be the first satellite to be placed into a geosynchronous orbit, however the spacecraft malfunctione
  • It became TDRS-7 after reaching geosynchronous orbit.
  • ing liftoff the rocket flew East towards a geosynchronous orbit.
  • The satellites in the FY-2 series are in geosynchronous orbit.
  • ed two burns to raise the satellite into a geosynchronous orbit.
  • , and inserted the satellite directly into geosynchronous orbit.
  • 1-C launched a Magnum ELINT satellite into geosynchronous orbit.
  • get from the shuttle's orbit to the higher geosynchronous orbit.
  • curred at 00:38:02 GMT, and it is now in a geosynchronous orbit.
  • wo minutes, instead of the planned 24-hour geosynchronous orbit.
  • he second stage fired, placing TDRS-C into geosynchronous orbit.
  • he second stage fired, placing TDRS-E into geosynchronous orbit.
  • weather satellites which were placed into geosynchronous orbit.
  • uld not otherwise be available as a stable geosynchronous orbit.
  • he second stage fired, placing TDRS-D into geosynchronous orbit.
  • he second stage fired, placing TDRS-F into geosynchronous orbit.
  • was used to place AMOS-3 (AMOS-60) into a geosynchronous orbit.
  • Three satellites orbited in geosynchronous orbits at 87.5, 110.5, and 98 degrees east
  • Prognoz satellites operate in Geosynchronous orbits, typically around 35,750 kilometres
  • The GSLV ( Geosynchronous Satellite Launch Vehicle) suffered a perfo
  • The Geosynchronous Satellite Launch Vehicle (usually known by
  • from which to construct the tower since a geosynchronous satellite will remain over a fixed point o
  • a in South America, TerreStar launched its geosynchronous satellite, TerreStar-1.
  • Syncom-2 subsequently became the first geosynchronous satellite, and was placed at 55° west of t
  • kom includes an optional order for another geosynchronous satellite.
  • anov's concept was based on the linking of geosynchronous satellites to the ground with a cable.
  • A catalog of all known geosynchronous satellites and their current positions
  • The constellation comprised geosynchronous satellites, providing Earth coverage and h
  • 2 separated from its carrier rocket into a geosynchronous transfer orbit, from which raise itself to
  • e launch successfully placed GOES-F into a geosynchronous transfer orbit, from which it raised itsel
  • a 162 second burn to insert Orion 3 into a geosynchronous transfer orbit.
  • five burns before releasing Nimiq 5 into a geosynchronous transfer orbit nine hours and fifteen minu
  • separated from the carrier rocket, into a Geosynchronous transfer orbit at 09:23, launched by an H-
  • e separated from its carrier rocket into a geosynchronous transfer orbit, however the third stage fa
  • scending node of the 8th, to place it in a geosynchronous transfer orbit.The classified payload was
  • Kourou, French Guyana.It was placed into a Geosynchronous Transfer Orbit (GTO), 30 minutes after the
  • ch successfully placed EchoStar XIV into a geosynchronous transfer orbit.
  • nch successfully placed EchoStar XV into a geosynchronous transfer orbit.
  • creased to 2,175 kilograms (4,800 lb) to a geosynchronous transfer orbit.
  • ite separated from the carrier rocket in a geosynchronous transfer orbit.
  • be placed into orbit, was launched into a geosynchronous transfer orbit and subsequently it was suc
  • e separated from the carrier rocket into a geosynchronous transfer orbit.
  • The satellite was released into a geosynchronous transfer orbit 1 hour and 58 minutes after
  • deployed from Discovery, and boosted to a geosynchronous transfer orbit by means of a PAM-D upper s
  • k motor, which raised the satellite into a geosynchronous transfer orbit, as had originally been pla
  • 15 February 2006, leaving Echostar X in a geosynchronous transfer orbit.
  • Discovery, and placed the satellite into a geosynchronous transfer orbit.
  • Atlantis, and placed the satellite into a geosynchronous transfer orbit.
  • DFH-2-class communications satellites into geosynchronous transfer orbits.
  • used a Zenit-3SL to carry SICRAL 1B into a geosynchronous transfer orbit.
  • Endeavour, and placed the satellite into a geosynchronous transfer orbit.
  • d as a third stage, to boost payloads into geosynchronous transfer orbit.
  • On launches to Geosynchronous transfer orbits, a Nissan-produced UM-129A
  • It successfully placed Galaxy 11 into a geosynchronous transfer orbit, from which it raised itsel
  • 3 separated from its carrier rocket into a geosynchronous transfer orbit, from which it raised itsel
  • ober 16, 1975, and left the satellite in a geosynchronous transfer orbit.
  • dual-satellite payload ever launched into geosynchronous transfer orbit,, however this record has s
  • with the Mexican Satmex 6 spacecraft, into geosynchronous transfer orbit.