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Nimbus 4



Nimbus 4, the fourth in a series of second-generation meteorological research-and-development satellites, was designed to serve as a stabilized, earth-oriented platform for the testing of advanced meteorological sensor systems, and for collecting meteorological data. The polar-orbiting spacecraft consisted of three major structures: (1) a ring-shaped sensor mount, (2) solar paddles, and (3) the control system housing. The solar paddles and the control system were connected to the sensor mount by a truss structure, giving the satellite the appearance of an ocean buoy. Nimbus 4 was nearly 3.7 m tall, 1.45 m in diameter at the base, and about 3 m across with solar paddles extended. The torus-shaped sensor mount, which formed the satellite base, housed the electronics equipment and battery modules. The lower surface of the torus ring provided mounting space for sensors and telemetry antennas. An H-frame structure mounted within the center of the torus provided support for the larger experiments and tape recorders. Mounted on the control system housing, which was on top of the spacecraft, were sun sensors, horizon scanners, gas nozzles for attitude control, and a command antenna. Use of an advanced attitude-control subsystem permitted the spacecraft's orientation to be controlled to within plus or minus 1 deg for all three axes (pitch, roll, and yaw). Primary experiments consisted of (1) an image dissector camera system (IDCS) for providing daytime cloudcover pictures, both in real-time and recorded modes, (2) a temperature-humidity infrared radiometer (THIR) for measuring daytime and nighttime surface and cloudtop temperatures as well as the water vapor content of the upper atmosphere, (3) an infrared interferometer spectrometer (IRIS) for measuring the emission spectra of the earth/atmosphere system, (4) a satellite infrared spectrometer (SIRS) for determining the vertical profiles of temperature and water vapor in the atmosphere, (5) a monitor of ultraviolet solar energy (MUSE) for detecting solar UV radiation, (6) a backscatter ultraviolet (BUV) detector for monitoring the vertical distribution and total amount of atmospheric ozone on a global scale, (7) a filter wedge spectrometer (FWS) for accurate measurement of IR radiance as a function of wavelength from the earth/atmosphere system, (8) a selective chopper radiometer (SCR) for determining the temperatures of six successive 10-km layers in the atmosphere from absorption measurements in the 15-micrometer CO2 band, and (9) an interrogation, recording, and location system (IRLS) for locating, interrogating, recording, and retransmitting meteorological and geophysical data from remote collection stations. A complete description can be found in "The Nimbus IV User's Guide" (TRF B06861), available from NSSDC. The spacecraft performed well until April 14, 1971, when attitude problems started. The experiments operated on a limited time basis after that time until September 30, 1980.

Alternate Names

  • 04362
  • Nimbus-D
  • Nimbus4
  • PL-701E

Facts in Brief

Launch Date: 1970-04-08
Launch Vehicle: Thor-Agena
Launch Site: Vandenberg AFB, United States
Mass: 619.6 kg

Funding Agency

  • NASA-Office of Space and Terrestrial Applications (United States)


  • Solar Physics
  • Earth Science

Additional Information

Questions and comments about this spacecraft can be directed to: Coordinated Request and User Support Office



NameRoleOriginal AffiliationE-mail
Mr. P. J. CrossfieldGeneral ContactNASA Goddard Space Flight Center
Dr. Ray J. ArnoldProgram ManagerNASA Headquarters
Dr. Albert J. Fleig, Jr.Project ScientistNASA Goddard Space Flight
Mr. Charles M. MacKenzieProject ManagerNASA Goddard Space Flight Center
Mr. G. J. DelioGeneral ContactNASA Goddard Space Flight Center
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