STS-34

Galileo being deployed from Atlantis.

Mission type

Spacecraft deployment

Operator

NASA

COSPAR ID

1989-084A

SATCAT №

20297

Mission duration

4 days, 23 hours, 39 minutes, 20 seconds

Distance travelled

2,900,000 kilometres (1,800,000 mi)

Orbits completed

Spacecraft properties

Spacecraft

Space Shuttle Atlantis

Launch mass

116,831 kilograms (257,568 lb)

Landing mass

88,881 kilograms (195,949 lb)

Payload mass

22,064 kilograms (48,643 lb)

Crew

Crew size

Members

Donald E. Williams
Michael J. McCulley
Shannon W. Lucid
Franklin R. Chang-Diaz
Ellen S. Baker

Start of mission

Launch date

18 October 1989, 16:53:40 UTC

Launch site

Kennedy LC-39B

End of mission

Landing date

23 October 1989, 16:33:00 UTC

Landing site

Edwards Runway 23

Orbital parameters

Reference system

Geocentric

Regime

Low Earth

Perigee

298 kilometres (185 mi)

Apogee

307 kilometres (191 mi)

Inclination

34.3 degrees

Period

90.6 min

Back row, L-R: Williams and McCulley. Front row, L-R: Lucid, Chang-Diaz, Baker.

Space Shuttle program
← STS-28	STS-33 →

STS-34 was a NASA Space Shuttle mission using Atlantis. It was the 31st shuttle mission overall, and the fifth flight for Atlantis.^[1] STS-34 launched from Kennedy Space Center, Florida, on 18 October 1989, and landed at Edwards Air Force Base, California, on 23 October. During the mission, the Jupiter-bound Galileo probe was deployed into space.

Crew

Position	Astronaut
Commander	Donald E. Williams Second spaceflight
Pilot	Michael J. McCulley Only spaceflight
Mission Specialist 1	Shannon W. Lucid Second spaceflight
Mission Specialist 2	Franklin R. Chang-Diaz Second spaceflight
Mission Specialist 3	Ellen S. Baker First spaceflight

Crew seating arrangements

Seat^[2]	Launch	Landing	Seats 1–4 are on the Flight Deck. Seats 5–7 are on the Middeck.
S1	Williams	Williams
S2	McCulley	McCulley
S3	Lucid	Baker
S4	Chang-Diaz	Chang-Diaz
S5	Baker	Lucid

Mission summary

Liftoff of Atlantis.

Galileo heads for Jupiter.

Atlantis lifted off from Pad B, Launch Complex 39, Kennedy Space Center (KSC), at 12:53 EDT on 18 October 1989. It carried the Jupiter-bound Galileo spacecraft in its cargo bay. The countdown was delayed at T-minus 5 minutes for 3 minutes and 40 seconds to update the onboard computer for a change in the Transoceanic Abort Landing (TAL) site. The TAL site was changed from Ben Guerir Air Base, Morocco, to Zaragoza Air Base, Spain, because of heavy rain at Ben Guerir.

The launch was originally targeted for 12 October 1989, the first day of a 41-day launch period during which the planets were properly aligned for a direct flight to Jupiter. The liftoff was rescheduled for 17 October 1989 to replace a faulty main engine controller for Space Shuttle Main Engine No. 2. It was postponed again until 18 October 1989 because of rain-showers within 20 miles (32 km) of Kennedy Space Center's Shuttle Landing Facility. The weather conditions were in violation of the launch commit criteria for a Return To Launch Site (RTLS) landing in the event of an aborted flight.

The primary payload, the Galileo spacecraft with its attached Inertial Upper Stage (IUS), was successfully deployed on its journey to Jupiter. STS-34 was only the second shuttle flight to deploy a planetary spacecraft, the first being STS-30, which deployed the Magellan spacecraft.

Galileo became the first spacecraft to orbit an outer planet and to penetrate the atmosphere of an outer planet. Also, the spacecraft was scheduled to make the first extended observations of the Jovian system and first direct sampling of Jupiter's atmosphere, as well as the first asteroid flybys.

Several anomalies occurred during the flight, but none had a major impact on the mission. On 22 October 1989, an alarm woke the shuttle crew when the gas generator fuel pump system A heaters on Auxiliary Power Unit (APU) 2 failed to recycle at the upper limits of the system. There were also some minor problems with the Flash Evaporator System for cooling the orbiter, and the cryogenic oxygen manifold valve 2, which was left closed for the rest of the mission. A Hasselblad camera jammed twice, and a spare camera had to be used.

Chang Díaz described his second flight as much more "subdued". Demonstrators protested at launch time against the flight because it had a nuclear device on board to power the Galileo spacecraft. He also said they almost aborted the flight in orbit three times because of malfunctions, but continued because the alternative was to land with the nuclear device at an airport in Senegal, which could have caused an "international incident," according to the astronaut. He identified the deployment of Galileo as another tricky part of the mission as he only had a tight six-second opportunity to succeed.^[3]

On 21 October 1989, Costa Rican President Dr. Oscar Arias Sanchez talked in Spanish with Chang-Diaz, a native of Costa Rica, and greeted the other crew members via a special telephone linkup. Arias told Chang-Diaz, "You raise high the name of Costa Rica and Latin America in general." Chang-Diaz also explained the mission's objectives in Spanish to Costa Rican listeners on the ground.^[4]

Because of high winds predicted at the nominal landing time, the landing was moved two orbits earlier to 12:33 EDT on 23 October 1989. Atlantis landed on Runway 23 at Edwards Air Force Base, California, after a mission duration of 4 days, 23 hours and 40 minutes.

Payload and experiments

The mission's primary task was to deploy the Galileo spacecraft with its attached IUS booster. Deployment occurred on schedule at 19:15 EDT on 18 October, slightly more than six hours after launch, and the IUS successfully boosted Galileo toward Venus on the first leg of its six-year journey to Jupiter. The spacecraft was injected on a Venus transfer orbit at 20:20 EDT, and separated from the IUS 47 minutes later.

Galileo required a triple gravity assist – from Venus, Earth, and then Earth again – to propel it from the inner part of the solar system to Jupiter in the outer system. The trajectory made it possible to also observe asteroids 951 Gaspra and 243 Ida. Galileo had two major components: an orbiter which examined Jupiter and its four largest moons for eight years, and a probe which descended into the Jovian atmosphere to take direct samplings before being destroyed by the gas giant's heat and pressure.

Besides the Galileo spacecraft, Atlantis' payload bay held two canisters containing the Shuttle Solar Backscatter Ultraviolet (SSBUV) experiment. SSBUV, which made its first flight on STS-34, was developed by NASA to check the calibration of the ozone sounders on free-flying satellites, and to verify the accuracy of atmospheric ozone and solar irradiance data. The experiment operated successfully.

STS-34 carried a further five mid-deck experiments, all of which were deemed successful, including the Polymer Morphology (PM) experiment, sponsored by the 3M Company under a joint endeavor agreement with NASA. The PM experiment was designed to observe the melting and resolidifying of different types of polymers while in orbit. The Mesoscale Lightning Experiment, which had been flown on previous shuttle missions, observed the visual characteristics of large-scale lightning in the upper atmosphere.

The crew successfully troubleshooted a student experiment on ice crystal growth. The experiment's first activation did not produce crystals because the supercooled water formed an ice slag on the cooling plate. The crew turned the experiment off, allowing the ice to thaw, and then redispersed the liquid. Several crystals formed. On 22 October, Lucid and Baker completed the Growth Hormone Concentration and Distribution in Plants experiment by freezing samples of corn seedlings grown in orbit during the mission.

In the cabin, the crew operated an IMAX (70-millimeter) camera, last flown on STS-29. Werner Herzog's 2005 film The Wild Blue Yonder featured footage filmed on the flight.

Chang-Diaz and Baker, a medical doctor, performed a detailed supplementary objective by photographing and videotaping the veins and arteries in the retinal wall of Baker's eyeball to provide detailed measurements which might give clues about a possible relationship between cranial pressure and motion sickness. Baker also tested the effectiveness of anti-motion sickness medication in space.

Wake-up calls

NASA began a tradition of playing music to astronauts during the Gemini program, and first used music to wake up a flight crew during Apollo 15. Each track is specially chosen, often by the astronauts' families, and usually has a special meaning to an individual member of the crew, or is applicable to their daily activities.^[5]

Flight Day	Song	Artist/Composer	Played for
Day 2	"Hail Purdue"		Donald E. Williams
Day 3	University of Oklahoma fight song		Shannon Lucid
Day 4	"Bohemian Rhapsody"	Queen
Day 5	"Centerfield"	John Fogerty
Day 6	"Fly Like An Eagle"	Steve Miller Band

Gallery

Galileo being prepared prior to launch.
The launch viewed from below.
Galileo prior to release.
Greece imaged from orbit.
The Mekong River delta imaged from orbit.
Atlantis lands at Edwards Air Force Base.

References

This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

↑ NASA (October 1989). "SPACE SHUTTLE MISSION STS-34 PRESS KIT" (PDF). NASA. Retrieved 3 July 2011.
↑ "STS-34". Spacefacts. Retrieved 26 February 2014.
↑ Senator’s father will be inducted into Astronaut Hall of Fame Senator Sonia Chang-Díaz, 2012-04-26.
↑ "Shuttle Schedule Altered by Desert Wind; Astronaut and Costa Rica President Chat" Los Angeles Times, 1989-10-22.
↑ Fries, Colin (25 June 2007). "Chronology of Wakeup Calls" (PDF). NASA. Retrieved 13 August 2007.

External links

Space Shuttle Atlantis (OV-104)

Completed flights	STS-51-J STS-61-B STS-27 STS-30 STS-34 STS-36 STS-38 STS-37 STS-43 STS-44 STS-45 STS-46 STS-66 STS-71 STS-74 STS-76 STS-79 STS-81 STS-84 STS-86 STS-101 STS-106 STS-98 STS-104 STS-110 STS-112 STS-115 STS-117 STS-122 STS-125 STS-129 STS-132 STS-135

Status	Retired

On display	Kennedy Space Center Visitor Complex, Merritt Island, Florida

U.S. Space Shuttle missions

Completed

1970–79	1977 ALT

1980–89	1981 STS-1 STS-2 1982 STS-3 STS-4 STS-5 1983 STS-6 STS-7 STS-8 STS-9 1984 STS-41-B STS-41-C STS-41-D STS-41-G STS-51-A 1985 STS-51-C STS-51-D STS-51-B STS-51-G STS-51-F STS-51-I STS-51-J STS-61-A STS-61-B 1986 STS-61-C STS-51-L 1988 STS-26 STS-27 1989 STS-29 STS-30 STS-28 STS-34 STS-33

1990–99	1990 STS-32 STS-36 STS-31 STS-41 STS-38 STS-35 1991 STS-37 STS-39 STS-40 STS-43 STS-48 STS-44 1992 STS-42 STS-45 STS-49 STS-50 STS-46 STS-47 STS-52 STS-53 1993 STS-54 STS-56 STS-55 STS-57 STS-51 STS-58 STS-61 1994 STS-60 STS-62 STS-59 STS-65 STS-64 STS-68 STS-66 1995 STS-63 STS-67 STS-71 STS-70 STS-69 STS-73 STS-74 1996 STS-72 STS-75 STS-76 STS-77 STS-78 STS-79 STS-80 1997 STS-81 STS-82 STS-83 STS-84 STS-94 STS-85 STS-86 STS-87 1998 STS-89 STS-90 STS-91 STS-95 STS-88 1999 STS-96 STS-93 STS-103

2000–09	2000 STS-99 STS-101 STS-106 STS-92 STS-97 2001 STS-98 STS-102 STS-100 STS-104 STS-105 STS-108 2002 STS-109 STS-110 STS-111 STS-112 STS-113 2003 STS-107 2005 STS-114 2006 STS-121 STS-115 STS-116 2007 STS-117 STS-118 STS-120 2008 STS-122 STS-123 STS-124 STS-126 2009 STS-119 STS-125 STS-127 STS-128 STS-129

2010–11	2010 STS-130 STS-131 STS-132 2011 STS-133 STS-134 STS-135

Cancelled

Orbiters

← 1988 · Orbital launches in 1989 · 1990 →

Kosmos 1987 · Kosmos 1988 · Kosmos 1989 \| Kosmos 1990 \| Kosmos 1991 \| Gorizont No.29L \| Kosmos 1992 \| Intelsat VA F-15 \| Kosmos 1993 \| Progress 40 \| Kosmos 1994 · Kosmos 1995 · Kosmos 1996 · Kosmos 1997 · Kosmos 1998 · Kosmos 1999 \| Kosmos 2000 \| Kosmos 2001 \| Kosmos 2002 \| USA-35 \| Molniya-1 No.84 \| Kosmos 2003 \| Akebono \| Kosmos 2004 \| Meteor-2 No.22 \| Kosmos 2005 \| JCSAT-1 · Meteosat 4 \| STS-29 (TDRS-4) \| Kosmos 2006 \| Progress 41 \| Kosmos 2007 \| Kosmos 2008 · Kosmos 2009 · Kosmos 2010 · Kosmos 2011 · Kosmos 2012 · Kosmos 2013 · Kosmos 2014 · Kosmos 2015 \| USA-36 \| Tele-X \| Kosmos 2016 \| Kosmos 2017 \| Gran' No.33L \| Kosmos 2018 \| Foton No.5L \| STS-30 (Magellan) \| Kosmos 2019 \| USA-37 \| Kosmos 2020 \| Kosmos 2021 \| Resurs-F1 No.45 · Pion 1 · Pion 2 \| Kosmos 2022 · Kosmos 2023 · Kosmos 2024 \| Kosmos 2025 \| Superbird-A · DFS Kopernikus 1 \| Kosmos 2026 \| Molniya-3 No.45 \| Okean-O1 No.4 \| USA-38 \| Kosmos 2027 \| USA-39 \| Kosmos 2028 \| Globus No.11 \| Resurs-F1 No.46 \| Nadezhda No.403 \| Kosmos 2029 \| Gorizont No.27L \| Olympus F1 \| Kosmos 2030 \| Resurs-F1 No.47 · Pion 3 · Pion 4 \| Kosmos 2031 \| Kosmos 2032 \| Kosmos 2033 \| Kosmos 2034 \| Kosmos 2035 \| STS-28 (USA-40 · USA-41) \| TV-SAT-2 · Hipparcos \| Resurs-F2 No.4 \| USA-42 \| Kosmos 2036 \| Progress M-1 \| Marco Polo 1 \| Kosmos 2037 \| USA-43 · USA-44 \| Himawari 4 \| Soyuz TM-8 \| USA-45 \| Resurs-F1 No.48 \| Kosmos 2038 · Kosmos 2039 · Kosmos 2040 · Kosmos 2041 · Kosmos 2042 · Kosmos 2043 \| Kosmos 2044 \| Kosmos 2045 \| USA-46 \| Molniya-1 No.69 \| Kosmos 2046 \| Interkosmos 24 · Magion 2 \| Gorizont No.31L \| Kosmos 2047 \| Kosmos 2048 \| STS-34 (Galileo) \| USA-47 \| Meteor-3 No.4 \| Intelsat VI F-2 \| Kosmos 2049 \| COBE \| STS-33 (USA-48) \| Kosmos 2050 \| Kosmos 2051 \| Kvant 2 \| Molniya-3 No.46 \| Kosmos 2052 \| Granat \| USA-49 \| Gran' No.36L \| Progress M-2 \| Kosmos 2053 \| Kosmos 2054

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

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STS-34

Crew

Crew seating arrangements

Mission summary

Payload and experiments

Wake-up calls

Gallery

See also

References

External links