「Geostationary」の共起表現一覧(1語右で並び替え)
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be moved to a graveyard orbit to keep the | geostationary altitude free for subsequent missions. |
The | Geostationary Banana Over Texas project was a plan to la |
Syncom 3 was the first | geostationary communication satellite, launched on Augus |
s first three-axis stabilised experimental | Geostationary communication satellite. |
also known as EchoStar 10, is an American | geostationary communications satellite which is operated |
EchoStar XIV is an American | geostationary communications satellite which is operated |
EchoStar XV is an American | geostationary communications satellite which is operated |
Optus D3 is an Australian | geostationary communications satellite, which is operate |
Thaicom 5 is a Thai | geostationary communications satellite which is operated |
reviously known as JCSAT-12, is a Japanese | geostationary communications satellite, which is operate |
also known as Palapa D1, is an Indonesian | geostationary communications satellite which is operated |
Only at twice the | geostationary distance could a lead sphere possibly supp |
The | Geostationary Earth Radiation Budget (GERB) is an instru |
CLEO was followed by the IRIS router on a | geostationary Intelsat satellite. |
he first customer to purchase a commercial | geostationary launch from SpaceX. |
AMC-18 is a | geostationary Lockheed Martin A2100A communications sate |
board the seven Meteosat first-generation | geostationary meteorological satellites. |
ng role in the planning and acquisition of | Geostationary Operational Environmental Satellite for th |
l Oceanic and Atmospheric Administration's | Geostationary Operational Environmental Satellite system |
frared Observations Satellites (TIROS) and | Geostationary Operational Environmental Satellites (GOES |
l Oceanic and Atmospheric Administration's | Geostationary Operational Environmental Satellite system |
ic and Atmospheric Administration (NOAA)'s | Geostationary Operational Environmental Satellite (GOES) |
The | Geostationary Operational Environmental Satellite progra |
It was the first | Geostationary Operational Environmental Satellite to be |
Data collection systems operated via | geostationary or near-polar orbiting meteorological/envi |
nch and on-orbit testing, it was placed in | geostationary orbit at 123° East, from where it provides |
ollowing launch, GOES 11 was positioned in | geostationary orbit at a longitude of 104° West for test |
nch and on-orbit testing, it was placed in | geostationary orbit at 30° West, from where it provides |
Following launch, it raised itself to a | geostationary orbit by means of its onboard SVM-5 apogee |
a to launch its INSAT-type satellites into | geostationary orbit and to make India less dependent on |
ical locations, mineral deposits, and even | geostationary orbit locations and portions of the electr |
stems/Loral intended to be launched into a | geostationary orbit and operated by Intelsat. |
It is positioned in | Geostationary orbit at a longitude of 110° West, from wh |
LEROS-1C apogee motor, with insertion into | geostationary orbit occurring at 20:50 GMT on 22 Februar |
few hours after launch, and was raised to | geostationary orbit by means of an Inertial Upper Stage. |
six hours after launch, and was raised to | geostationary orbit by means of an Inertial Upper Stage. |
tion from the rocket, it manoeuvred into a | geostationary orbit with a perigee of 35,781 kilometres |
Following its launch it raised itself into | geostationary orbit by means of its onboard R-4D apogee |
transfer orbit, from which raise itself to | geostationary orbit using a LEROS-1C apogee motor. |
nch and on-orbit testing, it was placed in | geostationary orbit at 162° East, from where it provides |
nch and on-orbit testing, it was placed in | geostationary orbit at 123° West, from where it provided |
It is intended to be positioned in | geostationary orbit at a longitude of 113º East, where i |
It is positioned in | geostationary orbit at a longitude of 119° West, from wh |
sfer orbit, from which it raised itself to | geostationary orbit by means of an onboard Star 27 apoge |
o raise both its apogee and its perigee to | geostationary orbit as well as to decrease the orbital i |
A | geostationary orbit occurs when an object (satellite) is |
nch and on-orbit testing, it was placed in | geostationary orbit at 73° East, from where it provides |
The | geostationary orbit is subject to orbit perturbations ca |
nch and on-orbit testing, it was placed in | geostationary orbit at 10° East, from where it provided |
ds and most of Mexico, and is located in a | geostationary orbit over the Pacific Ocean east of Hawai |
It will raise itself into | geostationary orbit by means of its onboard R-4D apogee |
The ASO is analogous to a | geostationary orbit (GSO) about Earth. |
SES-7 operates | geostationary orbit and intended to be located at a long |
It will subsequently raise itself into | geostationary orbit by means of its onboard propulsion s |
Upon reaching | geostationary orbit on 16 March, it was redesignated GOE |
It is positioned in | geostationary orbit at a longitude of 70 degrees East. |
A | geostationary orbit (or Geostationary Earth Orbit - GEO) |
e operational at 74° West longitude in the | geostationary orbit and replaced SBS-6 which was moved o |
Following launch, it was positioned in | geostationary orbit at a longitude of 90° West for on-or |
An object in a | geostationary orbit appears motionless, at a fixed posit |
tion from the rocket, it manoeuvred into a | geostationary orbit with a perigee of 35,785 kilometres |
sfer orbit, from which it raised itself to | geostationary orbit by means of an onboard R-4D apogee m |
sfer orbit, from which it raised itself to | geostationary orbit using an IHI -500-N apogee motor. |
le of moving up to 100 tonnes of mass to a | geostationary orbit, but was never flown. |
d monitor meteorological conditions from a | geostationary orbit, intended to replace GOES-5 and prov |
Similar to the | geostationary orbit, the heliostationary orbit is the he |
netary nebulae, definition of outer space, | geostationary orbit, space debris, management of outer s |
It is currently in a | geostationary orbit, with an apogee of 35,788 kilometres |
r to place a communications satellite into | geostationary orbit, a thruster to provide the satellite |
vering into a large circular orbit, e.g. a | geostationary orbit, requires a larger delta-v than an e |
It is positioned in | geostationary orbit, and will be located at a longitude |
cial case of the geosynchronous orbit, the | geostationary orbit, has an eccentrity of zero (meaning |
For meteorological satellites in | geostationary orbit, see weather satellite. |
Following its insertion into | geostationary orbit, GOES 4 was positioned at 98° West. |
ing fuel margin to achieve its operational | geostationary orbit. |
s needed for a payload to be placed into a | geostationary orbit. |
, in a non-nominally mode to raise it into | geostationary orbit. |
n object, possibly a captured asteroid, in | geostationary orbit. |
Clarke orbit - Another name for a | geostationary orbit. |
It will then raise itself into its final | geostationary orbit. |
st satellite launched by the PSLV into the | Geostationary orbit. |
al slot is 74 degree East longitude in the | Geostationary Orbit. |
his European Meteorology satellite is in a | Geostationary orbit. |
rst Sirius Radio satellite to be placed in | geostationary orbit; the three previous Sirius satellite |
It is parked at the | geostationary orbital position of 7° West together with |
Geostationary orbits are useful because they cause a sat | |
tes and weather satellites are often given | geostationary orbits, so that the satellite antennas tha |
he constant 0° latitude and circularity of | geostationary orbits, satellites in GEO differ in locati |
to be able to carry extra cargo to higher | geostationary orbits. |
The news media use the | geostationary photos in their daily weather presentation |
The | geostationary ring is a volume segment around the geosta |
lar the observation of space debris in the | geostationary ring and in geostationary transfer orbits, |
This leads to the definition of the | geostationary ring as being a segment of space around th |
Therefore, the definition of the | geostationary ring foresees a declination range from -15 |
ce debris objects as small as 15 cm in the | geostationary ring. |
A spherical | geostationary satellite would need to be more than 5 tim |
Astra 1KR is a | geostationary satellite owned by SES Astra. |
The | geostationary satellite PAN (2009-047A), along with two |
meters reduces the latency compared with a | geostationary satellite's 44,000 mile 250ms latency. |
ror later corrected by cross-referencing a | geostationary satellite. |
if it was placed in the Clarke belt, where | geostationary satellites orbit. |
Geostationary satellites cannot ordinarily be seen at al | |
By comparison, | geostationary satellites orbit at 5.6 Earth radii and GP |
f the connected pointing angles of all the | geostationary satellites seen from any given location on |
ability to dock with "90% of the 450 or so | geostationary satellites in orbit," whereas MDA SIS can |
weather satellite twice per day while the | geostationary satellites remain in one location at the e |
While | geostationary satellites provide a continuous view of th |
NOAA | Geostationary Satellites transmitting HRPT Weather image |
30 medium Earth orbit satellites and five | geostationary satellites. |
AT 4, also known as PAS 4, was an American | geostationary spacecraft that was launched by an Ariane |
s could launch around 2,175 kilograms into | Geostationary transfer orbit . |
pe orbit (C3), Geosynchronous orbit (GEO), | Geostationary transfer orbit (GTO), Earth-Moon L5 Lagran |
nt and commercial satellites, including to | Geostationary transfer orbit. |
e and is capable of launching 2500 kg into | geostationary transfer orbit. |
Avanti purchased for HYLAS a launch to | geostationary transfer orbit (GTO) on a Falcon 9 launch |
Geostationary weather satellites orbit the Earth above t | |
GOES-D before becoming operational, was a | geostationary weather satellite which was operated by th |
orld and are available from both polar and | geostationary weather satellites. |
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