STS-51-F (also known as Spacelab 2) was the 19th flight of NASA's Space Shuttle program and the eighth flight of Space Shuttle Challenger. It launched from Kennedy Space Center, Florida, on July 29, 1985, and landed eight days later on August 6, 1985.

STS-51-F
Experiments in Challenger's payload bay
NamesSpace Transportation System-19
Spacelab 2
Mission typeAstronomical observations
OperatorNASA
COSPAR ID1985-063A Edit this at Wikidata
SATCAT no.15925Edit this on Wikidata
Mission duration7 days, 22 hours, 45 minutes, 26 seconds
Distance travelled5,284,350 km (3,283,540 mi)
Orbits completed127
Spacecraft properties
SpacecraftSpace Shuttle Challenger
Launch mass114,693 kg (252,855 lb)
Landing mass98,309 kg (216,734 lb)
Payload mass16,309 kg (35,955 lb)
Crew
Crew size7
Members
Start of mission
Launch dateJuly 29, 1985, 21:00:00 (July 29, 1985, 21:00:00) UTC (5:00 pm EDT)
Launch siteKennedy, LC-39A
ContractorRockwell International
End of mission
Landing dateAugust 6, 1985, 19:45:26 (August 6, 1985, 19:45:26) UTC (12:45:26 pm PDT)
Landing siteEdwards, Runway 23
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude312 km (194 mi)
Apogee altitude320 km (200 mi)
Inclination49.49°
Period90.90 minutes
Instruments
  • Carbonated Beverage Dispenser Evaluation
  • Infrared telescope (IRT)
  • Instrument Pointing System (IPS)
  • Plasma Diagnostics Package (PDP)
  • Shuttle Amateur Radio Experiment

STS-51-F mission patch

Front row (seated): C. Gordon Fullerton, Roy D. Bridges Jr.
Back row (standing): Anthony W. England, Karl G. Henize, F. Story Musgrave, Loren W. Acton, John-David F. Bartoe
← STS-51-G (18)
STS-51-I (20) →

While STS-51-F's primary payload was the Spacelab 2 laboratory module, the payload that received the most publicity was the Carbonated Beverage Dispenser Evaluation, which was an experiment in which both Coca-Cola and Pepsi tried to make their carbonated drinks available to astronauts.[1] A helium-cooled infrared telescope (IRT) was also flown on this mission, and while it did have some problems, it observed 60% of the galactic plane in infrared light.[2][3]

During launch, Challenger experienced multiple sensor failures in its Engine 1 Center SSME engine, which led to it shutting down and the shuttle had to perform an "Abort to Orbit" (ATO) emergency procedure. It is the only Shuttle mission to have carried out an abort after launching. As a result of the ATO, the mission was carried out at a slightly lower orbital altitude.

Crew

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Position Astronaut
Commander C. Gordon Fullerton    
Second and last spaceflight
Pilot Roy D. Bridges Jr.  
Only spaceflight
Mission Specialist 1 Karl G. Henize  
Only spaceflight
Mission Specialist 2
Flight Engineer
F. Story Musgrave  
Second spaceflight
Mission Specialist 3 Anthony W. England  
Only spaceflight
Payload Specialist 1 Loren W. Acton  
Only spaceflight
Lockheed
Payload Specialist 2 John-David F. Bartoe  
Only spaceflight
United States Navy
  Member of Blue Team
  Member of Red Team
Backup crew
Position Astronaut
Payload Specialist 1 George W. Simon  
Lockheed
Payload Specialist 2 Dianne K. Prinz  
United States Navy

As with previous Spacelab missions, the crew was divided between two 12-hour shifts. Acton, Bridges and Henize made up the "Red Team" while Bartoe, England and Musgrave comprised the "Blue Team"; commander Fullerton could take either shift when needed.[4] Challenger carried two Extravehicular Mobility Units (EMU) in the event of an emergency spacewalk, which would have been performed by England and Musgrave.[4]

Crew seat assignments

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Seat[5] Launch Landing  
Seats 1–4 are on the flight deck.
Seats 5–7 are on the mid-deck.
1 Fullerton
2 Bridges
3 Henize
4 Musgrave
5 England
6 Acton
7 Bartoe

Launch

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Aborted launch attempt at T-3 seconds on July 12, 1985.
 
The control panel of the Shuttle on the STS-51-F mission, showing the selection of the Abort-to-Orbit (ATO) option.

STS-51-F's first launch attempt on July 12, 1985, was halted with the countdown at T−3 seconds after main engine ignition, when a malfunction of the number two RS-25 coolant valve caused an automatic launch abort. Challenger launched successfully on its second attempt on July 29, 1985, at 17:00 p.m. EDT, after a delay of 1 hour 37 minutes due to a problem with the table maintenance block update uplink.

At 3 minutes 31 seconds into the ascent, one of the center engine's two high-pressure fuel turbopump turbine discharge temperature sensors failed. Two minutes and twelve seconds later, the second sensor failed, causing the shutdown of the center engine. This was the only in-flight RS-25 failure of the Space Shuttle program. Approximately 8 minutes into the flight, one of the same temperature sensors in the right engine failed, and the remaining right-engine temperature sensor displayed readings near the redline for engine shutdown. Booster Systems Engineer Jenny M. Howard acted quickly to recommend that the crew inhibit any further automatic RS-25 shutdowns based on readings from the remaining sensors,[6] preventing the potential shutdown of a second engine and a possible abort mode that may have resulted in the loss of crew and vehicle (LOCV).[7]

The failed RS-25 resulted in an Abort to Orbit (ATO) trajectory, whereby the shuttle achieved a lower-than-planned orbital altitude. The plan had been for a 385 km (239 mi) by 382 km (237 mi) orbit,[8] but the mission was carried out at 265 km (165 mi) by 262 km (163 mi).[9]

Attempt Planned Result Turnaround Reason Decision point Weather go (%) Notes
1 12 Jul 1985, 3:30:00 pm Scrubbed Technical 12 Jul 1985, 3:29 pm ​(T-0:03) Pad abort: malfunction in SSME #2 coolant valve shutdown of all three main engines[10][11]
2 29 Jul 1985, 5:00:00 pm Success 17 days 1 hour 30 minutes 29 Jul 1985, 5:00 pm Launched after 1 hour 37 minute delay to resolve issue with table maintenance block update uplink. At T+343 seconds, SSME #1 shut down leading to ATO (Abort to Orbit).[9]

Mission summary

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The Plasma Diagnostics Package (PDP) grappled by the Canadarm.
 
Space art for the Spacelab 2 mission, showing some of the various experiments in the payload bay.
 
Tony England drinks soda in space.
 
A view of the Sierra Nevada mountains and surroundings from Earth orbit, taken on the STS-51-F mission.

STS-51-F's primary payload was the laboratory module Spacelab 2. A special part of the modular Spacelab system, the "igloo", which was located at the head of a three-pallet train, provided on-site support to instruments mounted on pallets. The main mission objective was to verify performance of Spacelab systems, determine the interface capability of the orbiter, and measure the environment created by the spacecraft. Experiments covered life sciences, plasma physics, astronomy, high-energy astrophysics, solar physics, atmospheric physics and technology research. Despite mission replanning necessitated by Challenger's abort to orbit trajectory, the Spacelab mission was declared a success.

The flight marked the first time the European Space Agency (ESA) Instrument Pointing System (IPS) was tested in orbit. This unique pointing instrument was designed with an accuracy of one arcsecond. Initially, some problems were experienced when it was commanded to track the Sun, but a series of software fixes were made and the problem was corrected. In addition, Anthony W. England became the second amateur radio operator to transmit from space during the mission.

Spacelab Infrared Telescope

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The Spacelab Infrared Telescope (IRT) was also flown on the mission.[3] The IRT was a 15.2 cm (6.0 in) aperture helium-cooled infrared telescope, observing light between wavelengths of 1.7 to 118 μm.[3] It was thought heat emissions from the Shuttle would corrupt long-wavelength data, however it still returned useful astronomical data.[3] Another problem was that a piece of mylar insulation broke loose and floated in the line-of-sight of the telescope.[3] IRT collected infrared data on 60% of the galactic plane.[2] (see also List of largest infrared telescopes) A later space mission that experienced a stray light problem from debris was Gaia astrometry spacecraft launch in 2013 by the ESA - the source of the stray light was later identified as the fibers of the sunshield, protruding beyond the edges of the shield.[12]

Other payloads

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The Plasma Diagnostics Package (PDP), which had been previously flown on STS-3, made its return on the mission, and was part of a set of plasma physics experiments designed to study the Earth's ionosphere. During the third day of the mission, it was grappled out of the payload bay by the Remote Manipulator System (Canadarm) and released for six hours.[13] During this time, Challenger maneuvered around the PDP as part of a targeted proximity operations exercise. The PDP was successfully grappled by the Canadarm and returned to the payload bay at the beginning of the fourth day of the mission.[13]

In a heavily publicized marketing experiment, astronauts aboard STS-51-F drank carbonated beverages from specially designed cans from Cola Wars competitors Coca-Cola and Pepsi.[14] According to Acton, after Coke developed its experimental dispenser for an earlier shuttle flight, Pepsi insisted to American president Ronald Reagan that Coke should not be the first cola in space. The experiment was delayed until Pepsi could develop its own system, and the two companies' products were assigned to STS-51-F.[15]

Blue Team tested Coke, and Red Team tested Pepsi. As part of the experiment, each team was photographed with the cola logo. Acton said that while the sophisticated Coke system "dispensed soda kind of like what we're used to drinking on Earth", the Pepsi can was a shaving cream can with the Pepsi logo on a paper wrapper, which "dispensed soda filled with bubbles" that was "not very drinkable".[15] Acton said that when he gives speeches in schools, audiences are much more interested in hearing about the cola experiment than in solar physics.[15] Post-flight, the astronauts revealed that they preferred Tang, in part because it could be mixed on-orbit with existing chilled-water supplies, whereas there was no dedicated refrigeration equipment on board to chill the cans, which also fizzed excessively in microgravity.

In an experiment during the mission, thruster rockets were fired at a point over Tasmania and also above Boston to create two "holes" – plasma depletion regions – in the ionosphere. A worldwide group of geophysicists collaborated with the observations made from Spacelab 2.[16]

Landing

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Challenger landed at Edwards Air Force Base, California, on August 6, 1985, at 12:45:26 p.m. PDT. Its rollout distance was 2,612 m (8,570 ft). The mission had been extended by 17 orbits for additional payload activities due to the Abort to Orbit. The orbiter arrived back at Kennedy Space Center on August 11, 1985.

Mission insignia

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The mission insignia was designed by Houston, Texas, artist Skip Bradley. Space Shuttle Challenger is depicted ascending toward the heavens in search of new knowledge in the field of solar and stellar astronomy, with its Spacelab 2 payload. The constellations Leo and Orion are shown in the positions they were in relative to the Sun during the flight. The nineteen stars indicate that the mission is the 19th shuttle flight.

Legacy

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One of the purposes of the mission was to test how suitable the Shuttle was for conducting infrared observations, and the IRT was operated on this mission.[17] However, the orbiter was found to have some draw-backs for infrared astronomy, and this led to later infrared telescopes being free-flying from the Shuttle orbiter.[17]

See also

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References

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  1. ^ "9 Weird Things That Flew on NASA's Space Shuttles - Final Shuttle Missions and NASA's Space Shuttle Souvenirs - NASA Shuttle Program". Space.com. July 7, 2011. Retrieved February 5, 2022.
  2. ^ a b "Archived copy of Infrared Astronomy From Earth Orbit". Archived from the original on December 21, 2016. Retrieved December 10, 2016.
  3. ^ a b c d e Kent, S. M.; Dame, T. M.; Fazio, G. (September 1, 1991). "Galactic Structure from the Spacelab Infrared Telescope. II. Luminosity Models of the Milky Way". The Astrophysical Journal. 378: 131. Bibcode:1992ApJS...78..403K. doi:10.1086/170413. ISSN 0004-637X.
  4. ^ a b   This article incorporates text from this source, which is in the public domain: "Space Shuttle Mission STS-51F Press Kit" (PDF). NASA. 1985. Archived (PDF) from the original on October 9, 2022. Retrieved March 1, 2014.
  5. ^ "STS-51F". Spacefacts. Retrieved February 26, 2014.
  6. ^ Travis, Matthew (October 16, 2012). NASA STS-51F space shuttle launch, SSME shutdown and mid-ascent Abort To Orbit (ATO) - July 29, 1985. Retrieved October 2, 2022 – via YouTube.
  7. ^   This article incorporates text from this source, which is in the public domain: Welch, Brian (August 9, 1985). "Limits to inhibit" (PDF). Space News Roundup. Houston, Texas: NASA Lyndon B. Johnson Space Center. pp. 1, 3. Archived from the original (PDF) on March 22, 2009. Retrieved January 10, 2010.
  8. ^   This article incorporates text from this source, which is in the public domain: "STS-51F Press Kit" (Press release). NASA. July 1985.
  9. ^ a b   This article incorporates text from this source, which is in the public domain: Legler, Robert D.; Bennett, Floyd V (September 2011). "Space Shuttle Missions Summary" (PDF). NASA Scientific and Technical Information Program Office. Archived from the original (PDF) on January 6, 2021.
  10. ^   This article incorporates text from this source, which is in the public domain: "STS-51F Launch attempt #1". NASA. Archived from the original on April 27, 2020.
  11. ^ "Radio Coverage of STS-51F launch attempt 1". AP. Archived from the original on November 23, 2021.
  12. ^ "STATUS OF THE GAIA STRAYLIGHT ANALYSIS AND MITIGATION ACTIONS". ESA. December 17, 2014. Retrieved February 5, 2022.
  13. ^ a b   This article incorporates text from this source, which is in the public domain: "STS-51F National Space Transportation System Mission Report". NASA Lyndon B. Johnson Space Center. September 1985. p. 2. Retrieved March 1, 2014.
  14. ^ Pearlman, Robert (May 31, 2001). "A Brief History of Space Marketing". Space.com. Archived from the original on February 14, 2009. Retrieved March 24, 2014.
  15. ^ a b c "Loren Acton: The Coke and Pepsi Flight". Air & Space/Smithsonian. Smithsonian Institution. November 18, 2010. Archived from the original on April 12, 2022.
  16. ^ "Elizabeth A. Essex-Cohen Ionospheric Physics Papers". 2007. Retrieved February 5, 2022.
  17. ^ a b "The Space Review: From Skylab to Shuttle to the Smithsonian". thespacereview.com. October 16, 2017. Retrieved February 5, 2022.
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