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Link to original content: http://en.wikipedia.org/wiki/Explorer_37
SOLRAD 9 - Wikipedia Jump to content

SOLRAD 9

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(Redirected from Explorer 37)
Solrad 9
Solrad 9.
Mission typeSolar science
OperatorNASA
COSPAR ID1968-017A[1]
SATCAT no.3141
Mission duration22 years, 8 months and 10 days
(final)
Spacecraft properties
ManufacturerNaval Research Laboratory
Launch mass198 kilograms (437 lb)
Start of mission
Launch date5 March 1968, 18:28 (1968-03-05UTC18:28Z) UTC[2][3]
RocketScout B-1 S160C
Launch siteWallops LA-3A[3]
End of mission
Last contactMarch 1974
Decay date16 November 1990 (1990-11-17)[4]
Orbital parameters
Reference systemGeocentric
RegimeLow Earth
Eccentricity0.01372
Perigee altitude448 kilometers (278 mi)
Apogee altitude638 kilometers (396 mi)
Inclination59.4°
Period95.5 minutes
Epoch5 March 1968[1]
Instruments
14 Photometers (UV and X-ray)

Solrad 9, also known Explorer 37 and Explorer SE-B, was one of the SOLRAD (Solar Radiation) program that began in 1960 to provide continuous coverage of solar radiation with a set of standard photometers.

Launch and operations

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Was launched on March 5, 1968 from Wallops Flight Facility, Virginia, United States, with Scout launch vehicle.[5]

Solrad 9 was a spin stabilized satellite oriented with its spin axis perpendicular to the sun-satellite line so that the 14 solar X-ray and UV photometers pointing radially outward from its equatorial belt viewed the sun with each revolution. Data were simultaneously transmitted via FM/AM telemetry and recorded in a core memory that read out its contents on command. Individual scientists and institutions were invited to receive and use the data transmitted on the 136 MHz telemetry band on the standard IRIG channels three through eight.[1][6]

In the time that elapsed between the termination of Solrad 8 operations in August 1967 and the orbiting of Solrad 9, solar activity data were obtained using photometers in satellites OSO-4 and OGO-4.

Solrad 9 was particularly important among the Solrad series satellites because thanks to the collected data were useful to predict the behavior of the sun during the period of the first crewed missions of the Apollo Program, starting from the first, Apollo 7, it is therefore useful to draw up a mission program to ensure, from this point of view, the safety of astronauts.[6] It recorded important data on one of the strongest solar storms that occurred between Apollo 9 and Apollo 10 and which would have produced potentially hazardous (to even fatal) effects to astronauts had then been in space (if the spacecraft were outside the Earth's protective magnetosphere) at the time.[7]

As of July 1971, it was decided to use the Solrad 10 memory data, put into orbit on the 8th of the same month, and so continued until June 1973, when the Solrad 10 data storage device had a bad operation and NASA began to read data from the memory of Solrad 9. The satellite remained active until February 25, 1974, when the gas reserves useful to maintain control of the facility were over. Once the stability was lost, in fact, the satellite became useless and therefore was turned off.

Unlike Solrad 8, its predecessor, Solrad 9 did not remain in orbit and returned to the atmosphere, disintegrating on November 16, 1990.[1]

References

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  1. ^ a b c d "Solrad 9". NSSDCA. NASA Goddard Space Flight Center. Retrieved 17 June 2018. Public Domain This article incorporates text from this source, which is in the public domain.
  2. ^ "Solar Observing satellites". Colorado State University. Retrieved 17 June 2018.
  3. ^ a b McDowell, Jonathan. "Launch Log". Joanthan's Space Page. Retrieved 17 June 2018.
  4. ^ "Explorer 37 (SE-B)". n2yo.com. Retrieved 17 June 2018.
  5. ^ Vítek, Antonín (7 December 2004). "1968-017A - Explorer 37". Space 40 (in Czech). Retrieved 17 June 2018.
  6. ^ a b "United States Space Science Program: Report to COSPAR". National Academies, 1969, p. 27. National Research Council. Space Science Board, COSPAR. 1969. Retrieved 17 June 2018.
  7. ^ Lockwood, Mike; M. Hapgood (2007). "The Rough Guide to the Moon and Mars" (PDF). Astron. Geophys. 48 (6): 11–17. Bibcode:2007A&G....48f..11L. doi:10.1111/j.1468-4004.2007.48611.x.