Explorer 19
{{Short description|NASA satellite of the Explorer program}}
{{Use American English|date=November 2021}}
{{Use dmy dates|date=November 2021}}
{{Infobox spaceflight
| name = Explorer 19
| names_list = AD-A
Air Density experiment-A
| image = File:Explorer 19 - 01.jpg
| image_caption = Cutaway diagram of Explorer 19
| image_size = 300px
| mission_type = Air density
| operator = NASA
| COSPAR_ID = 1963-053A
| SATCAT = 00714
| mission_duration =
| spacecraft = Explorer XIX
| spacecraft_type = Air Density Explorer
| spacecraft_bus = AD-A
| manufacturer = Langley Research Center
| launch_mass = {{cvt|7.7|kg}}
| dimensions = {{cvt|3.66|m}} diameter
| power = Solar cells and
Rechargeable batteries
| launch_date = 19 December 1963,
18:49:25 GMT
| launch_rocket = Scout X-4 (S-122R)
| launch_site = Vandenberg, PALC-D
| launch_contractor = Vought
| entered_service = 19 December 1963
| last_contact =
| destroyed =
| decay_date = 10 May 1981
| orbit_reference = Geocentric orbit
| orbit_regime = Low Earth orbit
| orbit_periapsis = {{cvt|590|km}}
| orbit_apoapsis = {{cvt|2394|km}}
| orbit_inclination = 78.6°
| orbit_period = 115.9 minutes
| apsis = gee
| instruments = Satellite Drag Atmospheric Density
| programme = Explorer program
| previous_mission = Explorer 18
| next_mission = Explorer S-66
}}
Explorer 19, (Air Density experiment A, or AD-A), was a NASA satellite launched on 19 December 1963, as part of the Explorer program. It was the third of six identical Explorer satellites launched to study air density and composition, and the second to reach orbit.{{cite web|url=https://history.nasa.gov/explorer.html|title=Explorer Spacecraft Series|publisher=NASA History Division|first=Woody |last=Smith|access-date=10 January 2016}} {{PD-notice}} It was identical to Explorer 9.{{cite web|url=https://space.skyrocket.de/doc_sdat/explorer_ad.htm |title=AD-A, -B, -C / Explorer S-56, 9, 19, 24, 39|publisher=Gunter's Space Page|date=8 April 2020|access-date=7 November 2021}}
Spacecraft
Explorer 19 was launched while Explorer 9, the first satellite in the series, was still active, so that densities in two different portions of the atmosphere were sampled simultaneously. The spacecraft consisted of alternating layers of aluminium foil and Mylar polyester film. Uniformly distributed over the aluminum surface were {{cvt|5.1|cm}} diameter dots of white paint for thermal control. The sphere was packed in a tube {{cvt|21.6|cm}} in diameter and {{cvt|48.3|cm}} long and mounted in the nose of the fourth stage of the launch vehicle. 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 aluminum foil were separated with a gap of Mylar at the spacecraft's equator and served as the antenna. A 136.620 MHz, 15 mW beacon was carried for tracking purposes. The spacecraft was successfully orbited, but its apogee was lower than planned. The beacon did not have sufficient power to be received by ground tracking stations, making it necessary to rely solely on the SAO Baker-Nunn camera network for tracking.{{cite web |url=https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1963-053A|title=Explorer 19 (AD-A) 1963-053A|publisher=NASA|date=28 October 2021|access-date=7 November 2021}} {{PD-notice}}
Experiments
= Nonsystematic Changes of Air Density =
This experiment was designed to determine nonsystematic changes of upper atmospheric density by conducting studies of the drag on a {{cvt|3.6|m}} diameter, low-density sphere caused by short-term variations in solar activity. Density values near perigee were deduced from sequential observations of the spacecraft position using optical (Baker-Nunn camera network) and radio/radar tracking techniques.{{cite web|url=https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1963-053A-01|title=Experiment: Nonsystematic Changes of Air Density|publisher=NASA|date=28 October 2021|access-date=7 November 2021}} {{PD-notice}}
= Systematic Changes of Air Density =
The objective of this experiment was to determine atmospheric density as a function of altitude, latitude, and time by measuring atmospheric drag on a low mass-to-area ratio (0.7680 kg per m2) spherical satellite. The orbit was Sun-synchronized so that near-polar densities would always be obtained along noon and midnight meridians.{{cite web |url=https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1963-053A-02|title=Experiment: Nonsystematic Changes of Air Density|publisher=NASA|date=28 October 2021|access-date=7 November 2021}} {{PD-notice}}
Launch
Explorer 19 was launched from Launch Area 3 at the Wallops Flight Facility (WFF), atop a Scout X-4 launch vehicle with the serial number S-122R. It was the second spacecraft launched from Wallops Island to achieve orbit.. The launch occurred at 18:49:25 GMT on 19 December 1963, and resulted in Explorer 19 being deployed into an orbit with an apogee of {{cvt|2394|km}}, a perigee of {{cvt|590|km}}, 78.6° of inclination and a period of 115.9 minutes.{{cite web |url=http://planet4589.org/space/log/satcat.txt|title=Satellite Catalog|first=Jonathan|last=McDowell|publisher=Jonathan's Space Report|access-date=17 June 2010}} 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 136.620 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.
Explorer 19's launch vehicle placed it into a slightly lower than planned orbit.
See also
{{Portal|Spaceflight}}
References
{{Reflist|30em}}
External links
- [http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19640017155_1964017155.pdf NASA FACTS - EXPLORER XIX]. (PDF)
{{Explorer program}}