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Explorer 9

January 31, 2023

Explorer 9, known as S-56A before launch, was a NASA satellite which was launched in February 1961 to study the density and composition of the upper thermosphere and lower exosphere.[2] It was a reflight of the failed Explorer S-56 mission, and consisted of a 7 kg (15 lb), 3.66 m (12.0 ft) balloon which was deployed into a medium Earth orbit.[3] The mission was conducted by NASA's Langley Research Center.

Explorer 9
Explorer 9 before launch
NamesS-56A
Explorer IX
NASA S-56A
Mission typeAir density research
OperatorNASA
Harvard designation1961 Delta 1
COSPAR ID1961-004A
SATCAT no.00081
Mission duration3 years (achieved)
Spacecraft properties
SpacecraftExplorer IX
Spacecraft typeAir Density Explorer
BusS-56
ManufacturerLangley Research Center
Launch mass7 kg (15 lb)
Dimensions3.66 m (12.0 ft) diameter
Powersolar cells and
rechargeable batteries
Start of mission
Launch date16 February 1961,
13:05:00 GMT
RocketScout X-1 (ST-4)
Launch siteWallops Flight Facility, LA-3
ContractorVought
Entered service16 February 1961
End of mission
Decay date9 April 1964
Orbital parameters
Reference systemGeocentric orbit[1]
RegimeMedium Earth orbit
Perigee altitude545 km (339 mi)
Apogee altitude2,225 km (1,383 mi)
Inclination38.91°
Period118.6 minutes
Instruments
Satellite Drag Atmospheric Density
Explorer Program
 

Spacecraft

The spacecraft consisted of alternating layers of aluminium foil and Mylar polyester film. Uniformly distributed over the aluminium surface were 5.1 cm (2.0 in)-diameter dots of white paint for thermal control. The sphere was packed in a tube 21.6 cm (8.5 in) in diameter and 48.3 cm (19.0 in) long and mounted in the nose of the fourth stage of its Scout X-1 launch vehicle.[4]

Experiment

Satellite Drag Atmospheric Density

Because of its symmetrical shape, Explorer 9 was selected for use in determining upper atmospheric densities as a function of altitude, latitude, season, and solar activity. Density values near perigee were deduced from sequential observations of the spacecraft position, using optical (Baker-Nunn camera network) and radar tracking techniques. A good discussion of the general techniques used to deduce density values from satellite drag data can be found in L. G. Jacchia and J. Slowey, "Accurate drag determination for eight artificial satellites of atmospheric densities and temperatures", Smithsonian Astrophysical Observatory special report n. 100, Cambridge, Massachusetts, July 1962. This experiment resulted in the successful determination of reasonable density values until the satellite reentered the Earth's atmosphere on 9 April 1964.[5]

Launch

 
Launch of Explorer 9 on a Scout X-1 (ST-4) on 16 February 1961.

Explorer 9 was launched from Launch Area 3 at the Wallops Flight Facility (WFF), atop a Scout X-1 launch vehicle with the serial number ST-4. It was the first spacecraft launched from Wallops Island to achieve orbit, with one previous attempt having failed. The launch occurred at 13:05:00 GMT on 16 February 1961, and resulted in Explorer 9 being deployed into an orbit with an apogee of 2,225 km (1,383 mi), a perigee of 545 km (339 mi), 38.91° of inclination and a period of 118.6 minutes.[6] It was assigned the Harvard designation 1961 Delta 1.[7]

Upon separation of the fourth stage, the sphere was inflated by a nitrogen gas bottle, and a separation spring ejected it out into its own orbit. The two hemispheres of aluminium foil were separated with a gap of Mylar at the spacecraft's equator and served as the antenna. A 136 MHz, 15 mW beacon was carried for tracking purposes, but the beacon failed on the first orbit and the SAO Baker-Nunn camera network had to be relied upon for tracking. Power was supplied by solar cells and rechargeable batteries.[1]

The second of six identical air density research satellites to be launched, Explorer 9 was the first to successfully reach orbit. It was still operational when the next satellite in the series, Explorer 19, was launched, allowing simultaneous readings to be taken and compared.[4]

Mission results

Careful and continuous photographic observation of the satellite allowed scientists to conduct an unprecedented survey of the Earth's exosphere. The satellite first confirmed the daily bulge in the upper atmosphere caused by the Sun's heating the air during the day and verified the model of exospheric temperature developed according to other satellite data.[8] It was later discovered that the temperature of the exosphere increased after geomagnetic disturbances in the ionosphere, peaking around five hours after each event.[9] With three years of data, scientists were able to discern a seasonal variation to the exosphere's density, with an increase of 25% observed in winter over summer at a reference latitude of 39°. The delay in the temperature increase resulting from magnetic disturbances was further refined to 5.2 ± 0.4 hours.[10]

Explorer 9 was the first spacecraft placed in orbit by an all-solid launch vehicle and the first spacecraft successfully launched into orbit from Wallops Island. The spacecraft reentered the Earth's atmosphere on 9 April 1964.[1]

Legacy

A replica of the spacecraft, possibly a flight backup, is currently located in the Smithsonian Institution's National Air and Space Museum, although it is not on display.[11]

See also

References

  1. ^ a b c "Display: Explorer-9 1961-004A". NASA. 28 October 2021. Retrieved 3 November 2021.   This article incorporates text from this source, which is in the public domain.
  2. ^ Smith, Woody. "Explorer Spacecraft Series". NASA. Retrieved 17 June 2010.   This article incorporates text from this source, which is in the public domain.
  3. ^ Wade, Mark. . Encyclopedia Astronautica. Archived from the original on 28 October 2002. Retrieved 17 June 2010.
  4. ^ a b Krebs, Gunter (8 April 2020). "AD A, B, C / (S-56) / Explorer S-56, 9, 19, 24, 39, 57". Gunter's Space Page. Retrieved 7 November 2021.
  5. ^ "Experiment: Satellite Drag Atmospheric Density". NASA. 28 October 2021. Retrieved 3 November 2021.   This article incorporates text from this source, which is in the public domain.
  6. ^ McDowell, Jonathan. "Satellite Catalog". Jonathan's Space Report. Retrieved 17 June 2010.
  7. ^ McDowell, Jonathan (21 July 2021). "Launch Log". Jonathan's Space Report. Retrieved 3 November 2021.
  8. ^ "Preliminary Analysis of the Atmospheric Drag of the Twelve-Foot Balloon Satellite (1961 δ1)". Retrieved 21 December 2018.
  9. ^ "Analysis of the Atmospheric Drag of the Explorer IX satellite from Precisely Reduced Photographic Observations". Retrieved 21 December 2018.
  10. ^ "Atmospheric Densities and Temperatures from Precisely Reduced Observations of the Explorer IX Satellite". Retrieved 21 December 2018.
  11. ^ "Satellite, Explorer 9, Balloon Replica". National Air and Space Museum. Retrieved 21 December 2018.

January 31, 2023
explorer, known, before, launch, nasa, satellite, which, launched, february, 1961, study, density, composition, upper, thermosphere, lower, exosphere, reflight, failed, explorer, mission, consisted, balloon, which, deployed, into, medium, earth, orbit, mission. Explorer 9 known as S 56A before launch was a NASA satellite which was launched in February 1961 to study the density and composition of the upper thermosphere and lower exosphere 2 It was a reflight of the failed Explorer S 56 mission and consisted of a 7 kg 15 lb 3 66 m 12 0 ft balloon which was deployed into a medium Earth orbit 3 The mission was conducted by NASA s Langley Research Center Explorer 9Explorer 9 before launchNamesS 56AExplorer IXNASA S 56AMission typeAir density researchOperatorNASAHarvard designation1961 Delta 1COSPAR ID1961 004ASATCAT no 00081Mission duration3 years achieved Spacecraft propertiesSpacecraftExplorer IXSpacecraft typeAir Density ExplorerBusS 56ManufacturerLangley Research CenterLaunch mass7 kg 15 lb Dimensions3 66 m 12 0 ft diameterPowersolar cells andrechargeable batteriesStart of missionLaunch date16 February 1961 13 05 00 GMTRocketScout X 1 ST 4 Launch siteWallops Flight Facility LA 3ContractorVoughtEntered service16 February 1961End of missionDecay date9 April 1964Orbital parametersReference systemGeocentric orbit 1 RegimeMedium Earth orbitPerigee altitude545 km 339 mi Apogee altitude2 225 km 1 383 mi Inclination38 91 Period118 6 minutesInstrumentsSatellite Drag Atmospheric DensityExplorer Program Explorer S 56Explorer S 45 Contents 1 Spacecraft 2 Experiment 2 1 Satellite Drag Atmospheric Density 3 Launch 4 Mission results 5 Legacy 6 See also 7 ReferencesSpacecraft EditThe spacecraft consisted of alternating layers of aluminium foil and Mylar polyester film Uniformly distributed over the aluminium surface were 5 1 cm 2 0 in diameter dots of white paint for thermal control The sphere was packed in a tube 21 6 cm 8 5 in in diameter and 48 3 cm 19 0 in long and mounted in the nose of the fourth stage of its Scout X 1 launch vehicle 4 Experiment EditSatellite Drag Atmospheric Density Edit Because of its symmetrical shape Explorer 9 was selected for use in determining upper atmospheric densities as a function of altitude latitude season and solar activity Density values near perigee were deduced from sequential observations of the spacecraft position using optical Baker Nunn camera network and radar tracking techniques A good discussion of the general techniques used to deduce density values from satellite drag data can be found in L G Jacchia and J Slowey Accurate drag determination for eight artificial satellites of atmospheric densities and temperatures Smithsonian Astrophysical Observatory special report n 100 Cambridge Massachusetts July 1962 This experiment resulted in the successful determination of reasonable density values until the satellite reentered the Earth s atmosphere on 9 April 1964 5 Launch Edit Launch of Explorer 9 on a Scout X 1 ST 4 on 16 February 1961 Explorer 9 was launched from Launch Area 3 at the Wallops Flight Facility WFF atop a Scout X 1 launch vehicle with the serial number ST 4 It was the first spacecraft launched from Wallops Island to achieve orbit with one previous attempt having failed The launch occurred at 13 05 00 GMT on 16 February 1961 and resulted in Explorer 9 being deployed into an orbit with an apogee of 2 225 km 1 383 mi a perigee of 545 km 339 mi 38 91 of inclination and a period of 118 6 minutes 6 It was assigned the Harvard designation 1961 Delta 1 7 Upon separation of the fourth stage the sphere was inflated by a nitrogen gas bottle and a separation spring ejected it out into its own orbit The two hemispheres of aluminium foil were separated with a gap of Mylar at the spacecraft s equator and served as the antenna A 136 MHz 15 mW beacon was carried for tracking purposes but the beacon failed on the first orbit and the SAO Baker Nunn camera network had to be relied upon for tracking Power was supplied by solar cells and rechargeable batteries 1 The second of six identical air density research satellites to be launched Explorer 9 was the first to successfully reach orbit It was still operational when the next satellite in the series Explorer 19 was launched allowing simultaneous readings to be taken and compared 4 Mission results EditCareful and continuous photographic observation of the satellite allowed scientists to conduct an unprecedented survey of the Earth s exosphere The satellite first confirmed the daily bulge in the upper atmosphere caused by the Sun s heating the air during the day and verified the model of exospheric temperature developed according to other satellite data 8 It was later discovered that the temperature of the exosphere increased after geomagnetic disturbances in the ionosphere peaking around five hours after each event 9 With three years of data scientists were able to discern a seasonal variation to the exosphere s density with an increase of 25 observed in winter over summer at a reference latitude of 39 The delay in the temperature increase resulting from magnetic disturbances was further refined to 5 2 0 4 hours 10 Explorer 9 was the first spacecraft placed in orbit by an all solid launch vehicle and the first spacecraft successfully launched into orbit from Wallops Island The spacecraft reentered the Earth s atmosphere on 9 April 1964 1 Legacy EditA replica of the spacecraft possibly a flight backup is currently located in the Smithsonian Institution s National Air and Space Museum although it is not on display 11 See also Edit Spaceflight portalExplorer S 56 Explorer programReferences Edit a b c Display Explorer 9 1961 004A NASA 28 October 2021 Retrieved 3 November 2021 This article incorporates text from this source which is in the public domain Smith Woody Explorer Spacecraft Series NASA Retrieved 17 June 2010 This article incorporates text from this source which is in the public domain Wade Mark S 56 Encyclopedia Astronautica Archived from the original on 28 October 2002 Retrieved 17 June 2010 a b Krebs Gunter 8 April 2020 AD A B C S 56 Explorer S 56 9 19 24 39 57 Gunter s Space Page Retrieved 7 November 2021 Experiment Satellite Drag Atmospheric Density NASA 28 October 2021 Retrieved 3 November 2021 This article incorporates text from this source which is in the public domain McDowell Jonathan Satellite Catalog Jonathan s Space Report Retrieved 17 June 2010 McDowell Jonathan 21 July 2021 Launch Log Jonathan s Space Report Retrieved 3 November 2021 Preliminary Analysis of the Atmospheric Drag of the Twelve Foot Balloon Satellite 1961 d1 Retrieved 21 December 2018 Analysis of the Atmospheric Drag of the Explorer IX satellite from Precisely Reduced Photographic Observations Retrieved 21 December 2018 Atmospheric Densities and Temperatures from Precisely Reduced Observations of the Explorer IX Satellite Retrieved 21 December 2018 Satellite Explorer 9 Balloon Replica National Air and Space Museum Retrieved 21 December 2018 Retrieved from https en wikipedia org w index php title Explorer 9 amp oldid 1084019183, wikipedia, wiki, book, books, library,

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