STS-85
STS-85 launches from the Kennedy Space Center, 7 August 1997 | |||||
Mission type | Research | ||||
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Operator | NASA | ||||
COSPAR ID | 1997-039A | ||||
SATCAT № | 24889 | ||||
Mission duration | 11 days, 20 hours, 28 minutes, 7 seconds | ||||
Distance travelled | 7,600,000 kilometres (4,700,000 mi) | ||||
Orbits completed | 185 | ||||
Spacecraft properties | |||||
Spacecraft | Space Shuttle Discovery | ||||
Payload mass | 9,191 kilograms (20,263 lb) | ||||
Crew | |||||
Crew size | 6 | ||||
Members |
Curtis L. Brown, Jr. Kent V. Rominger Nancy J. Davis Robert L. Curbeam, Jr. Stephen K. Robinson Bjarni V. Tryggvason | ||||
Start of mission | |||||
Launch date | 7 August 1997, 14:41 UTC | ||||
Launch site | Kennedy LC-39A | ||||
End of mission | |||||
Landing date | 19 August 1997, 11:08 UTC | ||||
Landing site | Kennedy SLF Runway 33 | ||||
Orbital parameters | |||||
Reference system | Geocentric | ||||
Regime | Low Earth | ||||
Perigee | 249 kilometres (155 mi) | ||||
Apogee | 261 kilometres (162 mi) | ||||
Inclination | 57.0 degrees | ||||
Period | 89.6 minutes | ||||
Left to right - Seated: Rominger, Brown; Standing: Curbeam, Robinson, Davis, Tryggvason
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STS-85 was a Space Shuttle Discovery mission to perform multiple space science packages. It was launched from Kennedy Space Center, Florida, on 7 August 1997.
Crew
Position | Astronaut | |
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Commander | Curtis L. Brown, Jr. Fourth spaceflight | |
Pilot | Kent V. Rominger Third spaceflight | |
Mission Specialist 1 | Nancy J. Davis Third spaceflight | |
Mission Specialist 2 | Robert L. Curbeam, Jr. First spaceflight | |
Mission Specialist 3 | Stephen K. Robinson First spaceflight | |
Payload Specialist 1 | Bjarni V. Tryggvason, CSA First spaceflight | |
Jeffrey Ashby was originally assigned to be pilot on this mission, but asked to be relieved in order to take care of his wife, who was dying from cancer. He was replaced by Kent Rominger and was assigned to pilot STS-93 instead. |
Mission highlights
The deployment and retrieval of a satellite designed to study Earth's middle atmosphere along with a test of potential International Space Station hardware highlighted NASA's sixth Shuttle mission of 1997. The prime payload for the flight, the Cryogenic Infrared Spectrometers and Telescopes for the Atmosphere-Shuttle Pallet Satellite-2 (CRISTA-SPAS-2) made its second flight on the Space Shuttle (previous flight STS-66 in 1994) and was the fourth mission in a cooperative venture between the German Space Agency (DARA) and NASA.
During the flight, Davis used Discovery's robot arm to deploy the CRISTA-SPAS payload for about 9 days of free-flight. CRISTA-SPAS consists of three telescopes and four spectrometers that measured trace gases and dynamics of the Earth's middle atmosphere. Davis also operated the robot arm for CRISTA-SPAS retrieval. The Shuttle Pallet Satellite (SPAS) on which the scientific instruments were mounted is a self-contained platform that provides power, command, control and communication with Discovery during free-flight.
Two other instruments mounted on the SPAS also studied the Earth's atmosphere. The Middle Atmosphere High Resolution Spectrograph Instrument (MAHRSI) measured hydroxyl and nitric oxide by sensing UV radiation emitted and scattered by the atmosphere, while the Surface Effects Sample Monitor (SESAM) was a passive carrier for state-of-the-art optical surfaces to study the impact of the atomic oxygen and the space environment on materials and services.
The crew also supported the Manipulator Flight Demonstration (MFD) experiment being sponsored by NASDA, the Japanese Space Agency. MFD consists of three separate experiments located on a support truss in the payload bay. The primary objective was to demonstrate the newly designed dexterous robot arm in the space environment, before installing on the Japanese Experiment Module (JEM) of the International Space Station.
Several Hitchhiker payloads, including the Technology Applications and Science Payload (TAS-01), the International Extreme Ultraviolet Hitchhiker (IEH-02), and the Ultraviolet Spectrograph Telescope for Astronomical Research (UVSTAR) were housed in Discovery's payload bay, operating independently of crew support during the flight.
The Microgravity Vibration Isolation Mount (MIM) experiment was operated by Canadian Space Agency astronaut Bjarni Tryggvason. The MIM experiment is a small double-locker size device designed to isolate International Space Station payloads and experiments from disturbances created by thruster firings or crew activity. MIM was operated for 30 hours with real-time data transmission to investigators on the ground. (Reference NASA Press Release 96–224)
Another experiment onboard STS-85 was the Southwest Ultraviolet Imaging System (SWUIS-01) from the Southwest Research Institute (SwRI) along with scientific collaborators from JPL, APL, and the University of Maryland. SWUIS (pronounced, "swiss") is a wide-field UV imager to which was used to observe comet Hale-Bopp. It is based around an 18-cm Maksutov UV telescope and a UV-sensitive, Xybion image-intensified CCD camera that frames at video rates (30 Hz). Each SWUIS observation period lasted approximately 3 hours, and garnered approximately 10^5 images in up to 7 filter bandpasses. SWUIS was operated from a 2-axis mount inside the Shuttle mid-deck cockpit, and looked out of the Shuttle through a quartz window. SWUIS can be pointed anywhere in a 4.5 deg cone around the centerline of the comet. Mission specialists set up and operated the instrument.
On Day 8, the crew was awakened by the song "You Will Go to the Moon" by Canadian artists Moxy Früvous, selected by astronaut Marc Garneau, the first Canadian in space.
The mission lasted a day longer than originally planned due to a threat of ground fog at Kennedy Space Center.
Media
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STS-85 launches (40 secs)
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STS-85 prepares to land (30 secs)
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STS-85 lands (38 secs)
See also
External links
- Media related to STS-85 at Wikimedia Commons
- NASA mission summary
- STS-85 Video Highlights
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