Pegasus 1 Explained

Pegasus 1
Mission Type:Micrometeoroid detection
Operator:NASA
Cospar Id:1965-009A
Satcat:001085
Mission Duration:3 years 6 months 13 days
Spacecraft Type:Pegasus
Manufacturer:Fairchild Hiller
Launch Rocket:Saturn I SA-9
Launch Site:Cape Canaveral LC-37B
Disposal Type:Decommissioned
Decay Date:17 September 1978
Orbit Epoch:18 March 1965
Orbit Reference:Geocentric
Orbit Regime:Low Earth orbit
Orbit Periapsis:500km (300miles)
Orbit Apoapsis:731km (454miles)
Orbit Inclination:31.7 degrees
Orbit Period:97.00 minutes
Apsis:gee
Programme:Apollo micrometeoroid investigation
Next Mission:Pegasus 2

Pegasus 1 or I, known before launch as Pegasus A, was an American satellite which was launched in 1965 to study micrometeoroid impacts in low Earth orbit. It was the first of three Pegasus satellites to be launched. The Pegasus spacecraft were manufactured by Fairchild Hiller, and operated by NASA.

Spacecraft

Pegasus 1 was a Pegasus satellite, consisting of of instruments, attached to the S-IV upper stage of the carrier rocket which had placed it into orbit.[1] It had a total mass of,[2] and was equipped with two sets of micrometeoroid detection panels, and a radio for tracking and returning data.[1] The panels were 29m (95feet) long, and equipped with 116 individual detectors.[3]

Launch

Pegasus 1 was launched atop a Saturn I rocket, serial number SA-9,[4] flying from Launch Complex 37B at the Cape Kennedy Air Force Station. The launch occurred at 14:37:03 UTC on 16 February 1965.[5] Following launch, Pegasus 1 was given the COSPAR designation 1965-009A, while NORAD assigned it the Satellite Catalog Number 01085.[6]

Pegasus 1 was a secondary payload of Apollo program mission AS-103, which also carried a boilerplate Apollo spacecraft BP-16.[5] The Apollo boilerplate acted as a payload fairing for the Pegasus spacecraft, which was stored inside what would have been the Service Module of a functional spacecraft. Upon reaching orbit, the boilerplate Command and Service modules were jettisoned.[1]

The trajectory and space-fixed velocity were very nearly as planned. The Apollo shroud separated from the Pegasus satellite about 804 seconds after lift-off and deployment of two meteoroid detection panel wings of the Pegasus satellite commenced about 1 minute later.

Operations

Pegasus 1 was operated in a low Earth orbit. On 18 March 1965 it was catalogued as being in an orbit with a perigee of 500km (300miles) and an apogee of 731km (454miles), inclined at 31.7 degrees to the Equator and with a period of 97.00 minutes.[7] Once in orbit, the panels were deployed to detect micrometeoroid impacts. Experiment results were returned to Earth by radio.[1] The spacecraft operated until 29 August 1968, and subsequently remained in orbit until it decayed and reentered the atmosphere on 17 September 1978.[7] Although minor malfunctions occurred in both the launch vehicle and the satellite, the mission was a success in that all objectives were met.

See also

Notes and References

  1. Web site: Pegasus 1, 2, 3. Gunter. Krebs. Gunter's Space Page. 20 December 2010.
  2. Web site: World Civil Satellites 1957-2006. Space Security Index. 20 December 2010. dead. https://web.archive.org/web/20110718022840/http://www.spacesecurity.org/files/WorldCivilSats2006.xls. 18 July 2011.
  3. Encyclopedia: Pegasus. https://web.archive.org/web/20020612065944/http://www.astronautix.com/craft/pegasus.htm. dead. June 12, 2002. Mark. Wade. Encyclopedia Astronautica. 20 December 2010.
  4. Web site: Launch List. Jonathan's Space Page. Launch Vehicle Database. Jonathan. McDowell. 20 December 2010.
  5. Web site: Launch Log. Jonathan's Space Page. Jonathan. McDowell. 20 December 2010.
  6. Web site: Pegasus 1. US National Space Science Data Center. NSSDC Master Catalog. 20 December 2010.
  7. Web site: Satellite Catalog. McDowell. Jonathan. Jonathan's Space Page. 20 December 2010.