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Mars Observer



Mars Observer, the first of the Observer series of planetary missions, was designed to study the geoscience and climate of Mars. The primary science objectives for the mission were to: (1) determine the global elemental and mineralogical character of the surface material; (2) define globally the topography and gravitational field; (3) establish the nature of the Martian magnetic field; (4) determine the temporal and spatial distribution, abundance, sources, and sinks of volatiles and dust over a seasonal cycle; and, (5) explore the structure and circulation of the atmosphere.

The bus and electronics of the Observer series of spacecraft, used to study the terrestrial planets and near-Earth asteroids, were derived from the Satcom-K and DMSP/TIROS spacecraft. The rectangular bus section was 2.1 x 1.5 x 1.1 m. During the cruise phase of the mission, the high-gain antenna and the booms for the magnetometer (MAG/ER) and gamma-ray spectrometer (GRS) were partially deployed. When fully deployed, the two booms were each 6 m long. The 1.5 m diameter high-gain antenna was, when fully deployed, on a 5.5 m boom to allow for clearance over the solar array when the antenna was pointed toward Earth.

Pointing control for the spacecraft was maintained through the use of four reaction wheels. Attitude information was provided by a horizon sensor (which defined the direction of the nadir), a star mapper (for inertial attitude), gyros and accelerometers (for measuring angular rates and linear accelerations), and multiple Sun sensors. Power was provided through a six-panel solar array which, when fully deployed, measured 7.0 x 3.7 m. During the cruise phase, however, only four panels were deployed (due to the proximity of the spacecraft to the sun) to reduce the amount of power generated. During periods when the spacecraft was in Mars' shadow, energy was to be provided by two Ni-Cd batteries, each with a capacity of 43 amp-hours.

The interplanetary cruise phase of the mission was intended primarily for spacecraft and instrument checkout and calibration. Two periods of data collection for the MAG/ER and GRS and one for the gravity wave experiment were planned for this phase as well. During the four month period from Mars orbital insertion until the spacecraft was to achieve its final mapping orbit, only data collection for the MAG/ER, GRS, and thermal emission spectrometer (TES) were scheduled. The mapping phase of the mission was scheduled to nominally last one Martian year. Mars Observer was also to support the acquisition of data from the Russian Mars 1994 mission through the use of the joint French-Russian-American Mars Balloon Relay instrument.

Contact with Mars Observer was lost on August 21, 1993, three days before scheduled orbit insertion, for unknown reasons and has not been re-established. It is not known whether the spacecraft was able to follow its automatic programming and go into Mars orbit or if it flew by Mars and is now in a heliocentric orbit. Later investigation concluded the most probable cause of the mishap was a fuel line rupture during fuel tank pressurization which would have caused the spacecraft to spin uncontrollably. Although none of the primary objectives of the mission were achieved, cruise mode data were collected up to loss of contact. The total cost of the Mars Observer mission including development, construction, launch, and ground support is estimated at $813 million.

Alternate Names

  • 22136
  • MGCO
  • Mars Geoscience/Climatology Orbiter
  • MarsObserver

Facts in Brief

Launch Date: 1992-09-25
Launch Vehicle: Titan III
Launch Site: Cape Canaveral, United States
Mass: 1018 kg
Nominal Power: 1147 W

Funding Agencies

  • Centre National d'Etudes Spatiales (France)
  • Russian Space Agency (U.S.S.R)
  • NASA-Office of Space Science Applications (United States)


  • Planetary Science
  • Astronomy

Additional Information

Questions and comments about this spacecraft can be directed to: Dr. David R. Williams



NameRoleOriginal AffiliationE-mail
Mr. Frank D. PalluconiDeputy Project ScientistNASA Jet Propulsion
Dr. William L. PiotrowskiProgram ManagerNASA Headquarters
Mr. David D. EvansProject ManagerNASA Jet Propulsion Laboratory
Dr. Arden L. AlbeeProject ScientistCalifornia Institute of
Dr. Bevan M. FrenchProgram ScientistNASA Headquarters

Selected References

  • Palocz, S., Mars Observer mission and systems overview, J. Spacecr. Rockets, 28, No. 5, 491-497, doi:10.2514/3.26271, Sep.-Oct. 1991.
  • Potts, D. L., Mars Observer spacecraft description, J. Spacecr. Rockets, 28, No. 5, 507-514, doi:10.2514/3.26274, Sep.-Oct. 1991.
  • Blume, W. H., et al., Mars Observer mission plan, J. Spacecr. Rockets, 28, No. 5, 522-529, doi:10.2514/3.26276, Sep.-Oct. 1991.
  • Albee, A. L., et al., Mars Observer mission, J. Geophys. Res., 97, No. E5, 7665-7680, doi:10.1029/92JE00342, May 1992.

Other Mars Observer Information

Reports on the loss of Mars Observer
What Happened to the Mars Observer?

Related Information at NSSDCA

Mars Global Surveyor
Mars Page

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