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- ...onal satellites in [[satellite orbits#geosynchronous|geosynchronous]] or [[satellite orbits#low earth orbit|low earth orbits]], receiving stations, and [[search and re358 bytes (44 words) - 21:25, 4 January 2009
- ...tellites that are targeted on the northern Russian installations may use [[satellite orbits#highly elliptical orbits|highly elliptical orbits]] to have as much low-alt1 KB (170 words) - 21:15, 26 December 2009
- ...through the atmosphere and into [[outer space]]; it may return, go into [[satellite orbits|satellite orbit]], or into an [[escape trajectory]]. Ballistic missiles are237 bytes (32 words) - 12:48, 26 July 2008
- ...makes use of a high-altitude relay(s), usually artificial satellites in [[satellite orbits|Earth orbits]] but potentially a relay in the atmosphere207 bytes (27 words) - 15:34, 10 April 2009
- ...ite system, which provides nonimaging and environmental information from [[satellite orbits|polar orbit]], for applications including weather, forest fire and volcanic415 bytes (48 words) - 12:46, 28 June 2009
- GOES satellites do visual and infrared imaging of earth atmosphere from [[satellite orbits|geosynchronous orbit]]; they carry secondary payloads in the [[COSPAS-SARSA283 bytes (35 words) - 12:13, 28 June 2009
- {{r|Satellite orbits}}353 bytes (41 words) - 16:45, 24 February 2024
- ...s benefit from an eastern starting point (i.e., principally those not in [[satellite orbits#polar orbit|polar or Moliyna orbit]]; supported by [[Patrick Air Force Base392 bytes (57 words) - 14:30, 19 March 2023
- ...gh a trajectory that takes it into [[outer space]], but does not achieve [[satellite orbits|orbit]] or Earth escape velocity186 bytes (27 words) - 01:28, 27 July 2008
- {{r|Satellite orbits}}258 bytes (33 words) - 12:35, 31 January 2009
- {{r|Satellite orbits}}506 bytes (63 words) - 16:45, 24 February 2024
- {{r|Satellite orbits}}828 bytes (101 words) - 21:51, 11 January 2010
- ...UFO-compatible [[Mobile User Objective System (satellite)]]. They are in [[satellite orbits#geosynchronous orbit|geosynchronous orbit]].1 KB (150 words) - 10:20, 8 April 2024
- {{r|Satellite orbits}}569 bytes (69 words) - 16:51, 11 January 2010
- {{r|Satellite orbits}}630 bytes (79 words) - 10:08, 10 February 2023
- {{r|Satellite orbits}}255 bytes (30 words) - 03:53, 19 November 2008
- {{r|Satellite orbits}}794 bytes (101 words) - 19:56, 11 January 2010
- ...the [[Moon]]. Depending on the application, they use different types of [[satellite orbits]].1 KB (125 words) - 14:12, 2 February 2023
- {{r|Satellite orbits}}419 bytes (55 words) - 19:41, 4 January 2009
- DSCS satellites are in [[satellite orbits|geosynchronous orbit (GEO)]], and have six [[ITU frequency bands|Super High951 bytes (130 words) - 10:20, 8 April 2024
- ...n high-altitude electronic relay(s), most often artificial satellites in [[satellite orbits|Earth orbit]]. The article is not titled "communications satellite", since2 KB (255 words) - 10:05, 10 February 2023
- {{r|Satellite orbits}}532 bytes (66 words) - 21:01, 31 August 2009
- {{r|Satellite orbits}}426 bytes (55 words) - 13:51, 15 April 2009
- {{r|Satellite orbits}}244 bytes (34 words) - 15:07, 26 March 2009
- {{r|Satellite orbits}}2 KB (195 words) - 08:31, 4 May 2024
- {{r|Satellite orbits}}535 bytes (68 words) - 20:41, 11 January 2010
- ...atellite orbits#low earth orbit|low earth orbit]], while the other is in [[satellite orbits#geostationary orbit|geostationary orbit]].3 KB (449 words) - 10:42, 8 April 2024
- {{r|Satellite orbits}}290 bytes (35 words) - 15:52, 28 May 2009
- {{r|Satellite orbits}}628 bytes (84 words) - 12:22, 12 April 2010
- {{r|Satellite orbits}}711 bytes (85 words) - 23:01, 12 January 2011
- ||Satellite orbits another planet - [[Mars]]3 KB (456 words) - 11:20, 10 February 2023
- {{r|Satellite orbits}}2 KB (305 words) - 14:13, 6 April 2024
- ...enter [[outer space]], but, for one of several reasons, does not achieve [[satellite orbits|orbit]]. It may not have sufficient energy to overcome gravity, or its traj1 KB (156 words) - 01:25, 27 July 2008
- ...m for propelling objects into [[outer space]], either on a suborbital or [[satellite orbits|orbital]] path, or into an escape velocity from Earth orbit. The term expli1,017 bytes (158 words) - 19:03, 31 January 2009
- ...eplaced by two variants of the Space-Based Infrared System (SBIRS), one in satellite orbits#geosynchronous orbit|geosynchronous orbit as is DSP <ref name=>{{citation3 KB (494 words) - 12:18, 22 March 2024
- {{r|Satellite orbits}}1,012 bytes (138 words) - 08:23, 5 May 2024
- {{r|Satellite orbits}}1 KB (198 words) - 15:17, 31 July 2009
- Operating in the [[IEEE Frequency Bands|X- and Ka-bands]], these [[satellite orbits#geosynchronous orbit|geosynchronous satellites]] have approximately 10 time5 KB (664 words) - 10:20, 8 April 2024
- ...ects into space, either for suborbital scientific work, to put things in [[satellite orbits]], or to send objects into [[escape velocity]] from Earth. "Space launch v ...U.S. government position again excluded rather than defined, stating the [[satellite orbits#geosynchronous orbit|geosynchronous orbit (GEO)]] is above the jurisdiction7 KB (1,143 words) - 19:29, 31 August 2009
- {{r|Satellite orbits}}2 KB (206 words) - 15:53, 4 April 2024
- ...stern launches are preferable for satellites that will be in high-latitude satellite orbits.2 KB (350 words) - 01:54, 27 March 2024
- {{r|Satellite orbits}}3 KB (360 words) - 14:39, 22 March 2024
- *[[satellite orbits|Polar-orbiting]] [[TIROS]] weather satellites and other satellites operate *[[satellite orbits|Geosynchronous orbit]] satellites (GEOSAR) aboard [[GOES]] and other satell5 KB (814 words) - 10:02, 24 August 2010
- ...e recognition of phenomena in [[Earth's atmosphere]] and on Earth. Their [[satellite orbits|geosynchronous orbits]] allow them to scan the same field of view for long4 KB (631 words) - 15:41, 18 August 2009
- ...stern launches are preferable for satellites that will be in high-latitude satellite orbits.2 KB (262 words) - 16:53, 30 August 2009
- ...lites, in both [[satellite orbits#low earth orbit|low earth orbits]] and [[satellite orbits#geosynchronous orbit|geosynchronous orbits]] are the backbone of VMS commun9 KB (1,282 words) - 10:13, 24 August 2010
- ...re in close to geosynchronous orbit, JUMPSEAT/TRUMPET satellites were in [[satellite orbits#highly elliptical orbit|Moliyna]] orbits giving better polar coverage. <ref From 1972 to 1989, [[satellite orbits#low earth orbit|low earth orbit]] SIGINT satellites were launched only as s16 KB (2,303 words) - 06:04, 8 April 2024
- {{r|Satellite orbits}}3 KB (441 words) - 12:55, 13 November 2014
- Because the most useful satellite orbits are in low-earth orbit and [[geostationary orbit]] these regions of space h19 KB (2,906 words) - 18:26, 25 August 2020
- {{r|Satellite orbits}}5 KB (685 words) - 09:07, 28 April 2024
- ...unded by governments but now commercial, Inmarsat has a constellation of [[Satellite orbits#Low earth orbit|geosynchronous]] communications satellites. *Argos uses [[Satellite orbits#Low earth orbit|Low Earth Orbit]] European and US satellites in polar orbit24 KB (3,694 words) - 10:10, 24 August 2010
- ...ut which may also be limiting. IMINT, for instance, may depend on weather, satellite orbits or the ability of aircraft to elude ground defenses, and time for analysis. ...gencies. New plans put SIGINT, MASINT, and IMINT sensors, appropriate to a satellite orbits| type of orbit, on common platforms.60 KB (8,909 words) - 18:47, 3 April 2024
- * [[Satellite orbits/Definition]]28 KB (2,875 words) - 16:19, 7 April 2024
- * [[Satellite orbits/Related Articles]]36 KB (4,044 words) - 16:22, 7 April 2024
- * [[Template:Satellite orbits/Metadata]]39 KB (4,231 words) - 05:22, 8 April 2024
- ...a battle of stovepiping, in which SIGINT and IMINT satellites, in a given satellite orbits|orbit, were launched by different agencies.47 KB (7,075 words) - 15:49, 1 April 2024