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The manned reusable space system which was designed to slash the cost of space transport and replace all expendable launch vehicles. It did neither, but did keep NASA in the manned space flight business for 30 years (and counting...) Redesign of the shuttle with reliability in mind after the Challenger disaster reduced maximum payload to low earth orbit from 27,850 kg to 24,400 kg.
Launches: 100. Failures: 1. Success Rate: 99.00% pct. First Launch Date: 12 April 1981. Last Launch Date: 11 October 2000. LEO Payload: 24,400 kg. to: 204 km Orbit. at: 28.5 degrees. Payload: 12,500 kg. to a: space station orbit, 407 km, 51.6 deg inclination trajectory. Liftoff Thrust: 2,625,932 kgf. Total Mass: 2,029,633 kg. Core Diameter: 8.7 m. Total Length: 56.0 m. Development Cost $: 10,100.00 million. in 1977 average dollars. Launch Price $: 245.00 million. in 1988 price dollars. Total Production Built: 5. Flyaway Unit Cost $: 63.00 million. in 1988 unit dollars. Cost comments: Shuttle has high fixed costs and low marginal costs. Cost per mission dependent on rate. Flyaway cost is marginal cost for extra mission. Launch cost is cost per flight at 6 per year.
The Director of Apollo Test in the NASA Hq. Apollo Program Office, LeRoy E. Day, was detailed to head the MSF Space Shuttle Task Group. The group would provide NASA with material for a report on the Space Shuttle to the President's Space Task Group.
Two major directions were identified for manned space flight in the next decade. These were further exploration of the Moon, with possibly the establishment of a lunar surface base, and the continued development of manned flight in Earth orbit, leading to a permanent manned space station supported by a low-cost shuttle system. To maintain direction, the following key milestones were proposed: 1972 - AAP operations using a Saturn V launched Workshop 1973 - Start of post-Apollo lunar exploration 1974 - Start of suborbital flight tests of Earth to orbit shuttle - Launch of a second Saturn V Workshop 1975 - Initial space station operations - Orbital shuttle flights 1976 - Lunar orbit station - Full shuttle operations 1977 - Nuclear stage flight test 1978 - Nuclear shuttle operations-orbit to orbit 1979 - Space station in synchronous orbit By 1990 - Earth orbit space base - Lunar surface base - Possible Mars landing
Start structural assembly crew module, Enterprise (OV-101)
Start long-lead fabrication aft fuselage, Columbia (OV-102)
Complete final assembly and closeout system installation.
Boeing 747 shuttle carrier aircraft delivered to Edwards
Conduct first inert captive flight, Edwards (2 hours, 5 minutes), Enterprise (OV-101)
Conduct second inert captive flight, Edwards (3 hours, 13 minutes), Enterprise (OV-101)
Conduct third inert captive flight, Edwards (2 hours, 28 minutes), Enterprise (OV-101)
Conduct fourth inert captive flight, Edwards (2 hours, 11 minutes), Enterprise (OV-101)
Conduct fifth inert captive flight, Edwards (1 hour, 39 minutes), Enterprise (OV-101)
First manned captive active flight. Enterprise (OV-101)/shuttle carrier aircraft, Edwards (55 minutes, 46 seconds)
Second manned captive active flight. Enterprise (OV-101)/shuttle carrier aircraft, Edwards (1 hour, 2 minutes)
Third manned captive active flight. Enterprise (OV-101)/shuttle carrier aircraft, Edwards (59 minutes, 50 seconds)
Conduct first free flight, ALT, tail cone on, Edwards (5 minutes, 21 seconds), Enterprise (OV-101), lake bed Runway 17
Second free flight, ALT, tail cone on, Edwards (5 minutes, 28 seconds), Enterprise (OV-101), lake bed Runway 17
Third free flight , ALT, tail cone on, Edwards (5 minutes, 34 seconds), Enterprise (OV-101), lake bed Runway 15
Fourth free flight, ALT, first tail cone off, Edwards (2 minutes, 34 seconds), Enterprise (OV-101), lake bed Runway 17
Fifth free flight, ALT, final tail cone off, Edwards (2 minutes, 1 second), Enterprise (OV-101), concrete Runway 04
First ferry flight test, Edwards (3 hours, 21 minutes), Enterprise (OV-101)
Second ferry flight test, Edwards (4 hours, 17 minutes), Enterprise (OV-101)
Third ferry flight test, Edwards (4 hours, 13 minutes), Enterprise (OV-101)
Fourth ferry flight test, Edwards (3 hours, 37 minutes), Enterprise (OV-101)
Complete approach and landing flight tests, including ferry flights, Enterprise (OV-101)
Shuttle carrier aircraft/Columbia (OV-102) test flight at NASA Edwards
First flight of Space Transportation System (aka Space Shuttle).. Payloads: Development Flight Instrumentation and Aerodynamic Coefficient Identification Package. Additional Details: STS-1.
Second shuttle test flight. Payloads: Office of Space and Terrestrial Applications (OSTA)-1 experiments, Orbiter Experiments (OEX). Additional Details: STS-2.
Manned two crew. Payloads: Office of Space Science (OSS) experiments, Monodisperse Latex Reactor (MLR), Electro-phoresis Verification Test (EEVT), Plant Lignification Experiment. First and only landing by a shuttle at White Sands, New Mexico, after weather at Edwards did not permit landing there. Additional Details: STS-3.
Manned two crew. Fourth space shuttle test flight. Payloads: Induced Environment Contamination Monitor (IECM), Monodisperse Latex Reactor (MLR), Continuous Flow Electrophoresis System (CFES), Development Flight Instrumentation (DFl), Orbiter Experiments (OEX), first NASA getaway special (GAS), Night/Day Optical Survey of Lightning (NOSL) experiment, Vapor Phase Compression (VPC) freezer heat exchanger dynamics for freezing samples, Aerodynamic Coefficient Identification Package (AClP) experiment. Additional Details: STS-4.
Deployed from STS-5 11/11/82. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned four crew. First mission to deploy commercial communications satellites (SBS 3, Anik C3). Payloads: : Satellite Business Systems (SBS)-C with Payload Assist ; (PAM)-D; Telesat-E (Canadian communications satellite) with PAM-D. Monodisperse Latex Reactor (MLR), Continuous Flow Electrophoresis System (CFES), three getaway specials (GAS), Student experiments, GLOW experiment, Vestibular experiment, Oxygen Interaction With Materials experiment. Additional Details: STS-5.
Deployed from STS-5 11/11/82. Telecommunications. Operating entity Telesat Canada. Longitude 117.5W. Transmit power 11.2 W per frequency at input of transmit antenna (typical saturated carrier). Anik C-3 Transmit frequency (MHz): 11730, 11743, 11791, 11804, 11852 , 11865, 11913, 11926, 11974, 11987, 12035, 12048, 12096, 12109 , 12157, 12170.
Element of satellite communications network, deployed from STS-6 4/5/83. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned four crew. First flight of space shuttle Challenger; deployed TDRSS. Payloads: Deployment of Tracking and Data Relay Satellite (TDRS)-A with Inertial Upper Stage (lUS)-2, Continuous Flow Electrophoresis System (CFES), Monodisperse Latex Reactor (MLR), Night/Day Optical Survey of Lightning (NOSL) experiment, three getaway specials (GAS). Additional Details: STS-6.
Ten experiments mounted on Shuttle Pallet Satellite (SPAS-01) performed research in forming metal alloys in microgravity and use of remote sensing scanner. Orbiter's small control rockets fired while SPAS-01 held by remote manipulator system to test movement on extended arm.
Deployed by STS-7 6/19/83. Telecommunications. Operating entity TELESAT Canada. Longitude 110 W. Transmit power 11.2 W on each frequency. Frequencies 11730, 11743, 11791, 11804, 11852, 11865, 11913, 11926, 11974, 11987, 12035, 12048, 12096, 12109, 12157, 12170 MHz.
Manned five crew. Deployed Anik C2, Palapa B1; deployed and retrieved SPAS platform. Payloads: Office of Space and Terrestrial Applications (OSTA)-2 experiments, deployment of PALAPA-B1 communications satellite for Indonesia with Payload Assist Module (PAM)-D and Telesat-F communications satellite for Canada with PAM-D, German Shuttle Pallet Satellite (SPAS)-01, seven getaway specials (GAS), Monodisperse Latex Reactor (MLR), Continuous Flow Electrophoresis System (CFES). Additional Details: STS-7.
Deployed by STS-7 6/18/83. Palapa B satellites were four times as powerful and twice the size of their predecessors, the Palapa A series. While the A series was designed for domestic/regional communications within Indonesia, the new system also served the Philippines, Thailand, Malaysia and Singapore. Palapa B2 was originally placed into a useless orbit due to malfunctions of its PAM-D upper stage. The Indonesian government claimed $75 million insurance and ordered a replacement (B2P), which was successfully orbited 3 years later. The original B2 was recovered by the STS-51A mission on November 12, 1984 under an arrangement between the satellite's insurers, NASA and Hughes. The satellite was then sold by the insurers to an intermediary company, refurbished, and then resold back to Indonesia following its launch in 1990. Spacecraft: Based on Hughes HS-376 design. Cylindrical structure. Spin stabilised. Hydrazine propulsion system for attitude control, orbit maintenance. Body mounted solar cells provide 1060 W BOL. Despun antenna platform. Payload: Each carried 24 C-band transponders (+6 spares).
Released from STS 8 8/31/83; also carried transponders for domestic communications. Operational multipurpose satellite for telecommunications, meteorological imaging and data relay, radio and television programme distribution and direct television broadcasting for community reception. Geostationary longitude 74.0 +/ - 0.1 deg E. Deployment from US Space Transportation System flight no 8, orbiter Challenger, on 31 Aug 1983.
First night launch and night landing. Deployed Insat 1B. Payloads: Deployment of INSAT (lndia communica-tion satellite) with Payload Assist Module (PAM)-D, Payload Flight Test Article (PFTA)/ Payload Deployment Retrieval System (PDRS), Continuous Flow Electrophoresis (CFES), biomedical experiments. 250,000 express mail envelopes with special cachet for U.S. Postal Service were carried for a first-day cover. Additional Details: STS-8.
Carried ESA Spacelab. Payloads: Payload: Spacelab-1 experiments, habitable Spacelab and pallet, carried 71 experiments. The six-man crew was divided into two 12-hour-day red and blue teams to operate experiments. First high-inclination orbit of 57 degrees. Additional Details: STS-9.
 | Shuttle side view Credit: © Mark Wade. 7,022 bytes. 258 x 612 pixels. |
Manned five crew. Deployed Westar 6, Palapa B2; tested Manned Maneuvering Unit (MMU). Payloads: PALAPA-B2 (Indonesian communications satellite) with Payload Assist Module (PAM)-D and WESTAR (Western Union communications satellite)-Vl with PAM-D. Both satellites were deployed but the PAM-D in each satellite failed to ignite, leaving both satellites in earth orbit. Both satellites were retrieved and returned to earth for renovation on the STS-51-A mission. The manned maneuvering unit (MMU) was tested with extravehicular astronauts as free flyers without tethers as far as 98 m from the orbiter. Shuttle Pallet Satellite (SPAS)-01 experiments, Monodisperse Latex Reactor (MLR), Isoelectric Focusing Experiment (lEF), Acoustic Containerless Experiment System (ACES), Cinema 360 cameras, five getaway specials (GAS), Aerodynamic Coefficient Identification (ACIP)/High Resolution Accelerom-eter Package (HIRAP). Additional Details: STS-41-B.
Deployed from STS 41B 2/4/84; failed to reach proper orbit; recovered by STS-51A.
Deployed from STS 41B 2/4/84; failed to reach proper orbit; recovered by STS-51A. The Westar series of geostationary spacecraft provide commercial communications services for Western Union. Westar 6 failed to achieve geosynchronous orbit after being deployed from the Space Shuttle. It was later retrieved by another Shuttle mission (November 14, 1984) and returned for refurbishment and relaunch. All Westars have been launched by NASA on a reimbursable basis. Spacecraft: Westar uses the Hughes HS-376 spacecraft design. Spin stabilised with a despun antenna section. Body mounted solar cells. Once on orbit, an outer cylinder deploys downward in 'dixie-cup' fashion to increase the solar panel area. Payload: Westar spacecraft typically carried 12 to 24 transponders in the 4-6 GHz range. A single antenna reflector (72 inch diameter) is used with an array of offset feed horns. The reflector uses two polarisation-selective surfaces for horizontal and vertical polarised signals.
Deployed from STS 41B 2/5/84; Integrated Rendezvous Target. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
German-built Shuttle Pallet Satellite (SPAS), first flown on STS-7, became first satellite refurbished and flown again. SPAS remained in payload bay due to electrical problem with Remote Manipulator System (RMS).
Manned five crew. First repair on orbit of a satellite, Solar Maximum Mission, by James van Hoften and George Nelson. Deployed LDEF. Payloads:Solar Maximum Mission (SMM) repair, manned maneuvering unit (MMU) satellite support, deployment of Long-Duration Exposure Facility (LDEF) in earth orbit free drift. LDEF contained 57 experiments and weighed about 10,000 kg. Cinema 360 and IMAX 70-mm cameras. Additional Details: STS-41-C.
Long Duration Exposure Facility; deployed from STS 41C 4/7/84; retrieved by STS-32 1/20/90. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned six crew. First flight of space shuttle Discovery; deployed SBS 4, Leasat 1, Telstar 3C. Payloads: Satellite Business System (SBS)-D commu-nications satellite with Payload Assist Module (PAM)-D deployment, Syncom IV-2 communica-tions satellite with its unique stage deployment, Telstar (American Telephone and Telegraph) 3-C with PAM-D deployment, Office of Aeronautics and Space Technology (OAST)-1 experiments. Deployment and restowing of large solar array. Continuous Flow Electrophoresis (CFES). IMAX camera. Additional Details: STS-41-D.
Released from STS 41D 8/31/84; 101 deg W. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Released from STS 41D 8/31/84; 105 deg W; leased to U.S. government. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Released from STS 41D 9/1/84; stationed at 125 deg W. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Earth Radiation Budget Satellite. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned seven crew. Deployed ERBS; performed high resolution Earth imagery. Payloads: Earth Radiation Budget Satellite (ERBS) deployment, Office of Space and Terrestrial Applications (OSTA)-3 experiments, Large Format Camera (LFC). First use of Orbital Refueling System (ORS) with extravehicular activity (EVA) astronauts, IMAX camera. In response to the American Strategic Defence Initiative and continued military use of the shuttle, the Soviet Union fired a 'warning shot' from the Terra-3 laser complex at Sary Shagan. The facility tracked Challenger with a low power laser on 10 October 1984. This caused malfunctions to on-board equipment and discomfort / temporary blinding of the crew, leading to a US diplomatic protest. Additional Details: STS-41-G.
Manned five crew. First retrieval of two satellites (PALAPA B-2 and WESTAR Vl) for return to earth. Deployed Anik D2, Leasat 2; recovered Westar 6, Palapa B2. Payloads: Telesat (Canada communications satellite)-H with Payload Assist Module (PAM)-D deploy-ment, Syncom IV-1 communications satellite deployment with its unique stage, retrieval of PALAPA B-2 and WESTAR VI communications satellites with PAM-D which failed to ignite on the STS-41-B mission. Manned maneuvering unit (MMU) used for retrieval. Diffusive Mixing of Organic Solutions (DMOS) experiment. Additional Details: STS-51-A.
Released 11/9/84 from STS 51A; 82 deg W. Telecommunications. Longitude 111.5 deg W. Operating entity Telesat Canada. Transmitter power 8.9 watts at each frequency. Frequencies 3720 to 4180 MHz spaced by 20 MHz.
Released from STS 51A 11/10/84; 105 deg W; leased to U.S. government. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned five crew. Deployed USA 8 (Aquacade ELINT spacecraft). Orbits of Earth: 48. Landed at: Runway 15 at Kennedy Space Center, Florida. Landing Speed: 342 kph. Touchdown miss distance: 839.00 m. Landing Rollout: 2,240.00 m. Payloads: Department of Defence classified payloads. Additional Details: STS-51-C.
New Magnum model geostationary ELINT satellite model replaced earlier Rhyolite/Aquacade. Deployed from STS-51C January 24 1985. Boosted to geostationary orbit.
Released by STS 51D 4/13/85; 107.5 deg W. Telecommunications. Operating entity TELESAT Canada. Longitude 107.5 W. Transmit power 11.2 W on each frequency. Frequencies 11730, 11743, 11791, 11804, 11852, 11865, 11913, 11926, 11974, 11987, 12035, 12048, 12096, 12109, 12157, 121 70 MHz.
Released by STS 51D 4/13/85; failed to orbit and subsequently repaired by STS 51-I on 8/31/85; 178 deg E; leased by U.S. government. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned seven crew. Payloads: Telesat (Canada communications satellite)-I with Payload Assist Module (PAM)-D deployment, Syncom IV-3 communications satellite deploy-ment with its unique stage (unique stage failed to ignite), Continuous Flow Electrophoresis (CFES), Phase Partitioning Experiment (PPE), student experiments, two getaway specials (GAS) Informal science studies (Toys in Space). Additional Details: STS-51-D.
Air traffic control radar calibration. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned seven crew. Deployed Nusat; carried Spacelab 3. Payloads: Spacelab-3 experiments, habitable Spacelab and mission peculiar experiment support structure. The experiments represented a total of five different disciplines: materials processing in space, environmental observa-tions, life science, astrophysics, and technology experiments. Two getaway specials (GAS). The flight crew was split into gold and silver shifts working 12-hour days during the flight. Additional Details: STS-51-B.
Released by STS 51G 6/19/85; stationed at 76 deg W.
Deployed and retrieved Spartan 1; launched Morelos 1, Arabsat 1B, Telstar 3D.Payloads: Shuttle Pointed Autono-mous Research Tool for Astronomy (SPARTAN)-1; Automated Directional Solidification Furnace (ADSF); High Precision Tracking Experiment (HPTE); Orbiter Experiments (OEX); French Echocardiograph Experiment (FEE) and French Pocket Experiment (FPE). Additional Details: STS-51-G.
Released by STS 51G 6/17/85; 113.5 deg W. Coverage of the national territory with television, radio and telephony signals and data transmission. Geostationary satellite.
Released by STS 51G 6/18/85; 26 deg E.
Released by STS 51G 6/20/85, retrieved 6/22/85.
Plasma Diagnostics Package; released by STS 51F 8/1/85, retrieved 8/2/85.
Manned seven crew. At 5 minutes, 45 seconds into ascent the number one engine shut down prematurely and an abort to orbit was declared. Despite the anomaly the mission continued. Launched PDP; carried Spacelab 2. Payloads: Spacelab-2 with 13 experiments, Shuttle Amateur Radio Experiment (SAREX), Protein Crystal Growth (PCG). The flight crew was divided into a red and blue team. Each team worked 12-hour shifts for 24-hour-a-day operation. Additional Details: STS-51-F.
Manned five crew. Launched Aussat 1, ASC 1, Leasat 4; repaired Leasat 3. Payloads: Deploy ASC (American Satellite Company)-1 with Payload Assist Modue (PAM)-D. Deploy AUSSAT (Australian communications satellite)-1 with PAM-D. Deploy Syncom IV-4 communications satellite with its unique stage. Retrieve Leasat-3 communications satellite, repair and deploy by extravehicular activity (EVA) astronauts. Physical Vapor Transport Organic Solids (PVTOS) experiment. Additional Details: STS-51-I.
Released by STS 51I 8/27/85. Aussat A1 was decommissioned in early 1993 at the ned of its nominal life. It is currently in a non-synchronous graveyard orbit.. It spent its active life at 160 deg. E.
Released by STS 51I 8/27/85; stationed at 81 deg E. C, Ku band communications satellite.
Released by STS 51I 8/29/85; 178 deg E; leased by U.S. government. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned five crew. Atlantis (first flight); deployed USA 11, USA 12. Reusable space transportation system.
Orbits of Earth: 63. Landed at: Runway 23 dry lake bed at Edwards Air Force Base, . Touchdown miss distance: 754.00 m. Landing Rollout: 2,455.00 m. Payloads: Classified DoD Mission - Record altitude (as of 5/93). Additional Details: STS-51-J.
 | Shuttle Night Launch Credit: NASA. 15,622 bytes. 477 x 453 pixels. |
Released from STS 51J 10/4/85; boosted into orbit with DSCS 3 F3 on single IUS booster. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Released from STS 61A 11/1/85. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned eight crew. Launched GLOMR; carried Spacelab D1. Payloads: Spacelab D-1 with habitable module and 76 experiments. Six of the eight crew members were divided into a blue and red team working 12-hour shifts for 24-hour-a-day operation. The remaining two crew members were 'switch hitters.'. Additional Details: STS-61-A.
Planned EOM-1/2 shuttle mission. Cancelled due to payload delays.
Manned seven crew. Deployed Morelos 2, Aussat 2, Satcom K2, OEX. Payloads: Deploy SATCOM (RCA-Satellite Communi-cations) Ku-2 with Payload Assist Module (PAM)-D II. Deploy Morelos (Mexico communications satellite)-B with PAM-D. Deploy AUSSAT (Australian communications satellite)-2 with PAM-D. EASE/ACCESS (Assembly of Structures— Assembly Concept for Construction of Erectable Space Structures) by extravehicular activity (EVA) astronauts, Continuous Flow Electrophore-sis System (CFES), Diffusive Mixing of Organic Solutions (DMOS), IMAX camera, one getaway special (GAS), Linhof camera and Hasseblad camera. Additional Details: STS-61-B.
Released by STS 61B 11/27/85. Coverage of the national territory with television, radio and telephony signals and data transmission. Geostationary satellite.
Released by STS 61B 11/28/85; 156 deg E.
Released by STS 61B 11/28/85; 81 deg W.
Released from STS 61B 11/30/85; shuttle autopilot software test target. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Stationed at 81 deg W.
Manned seven crew. Launched Satcom K1. Payloads: Deploy SATCOM (RCA-Satellite Communi-cations) Ku-1 with Payload Assist Module (PAM)-D II. Materials Science Laboratory, Comet Halley Active Monitoring Experiment (CHAMP), Hitchhiker (HH) Goddard (G)-1, thirteen getaway specials (GAS), student experiment, Initial Blood Storage Equipment (lBSE), Characterization of Space Motion Sickness (SMS). Additional Details: STS-61-C.
Exploded 73 seconds after launch, all 7 crewmembers were killed; carried TDRSS satellite. Additional Details: STS-51-L.
Planned Spacelab-D1 shuttle mission. Cancelled after Challenger disaster. No crew selected; renamed STS-61A
Manned five crew. First shuttle reflight after Challenger disaster. Deployed TDRS 3. Payloads: Deploy IUS (lnertial Upper Stage) with Tracking and Data Relay Satellite (TDRS)-C. 3M's Physical Vapor Transport Organics Solids 2 experiment (PVTOS), Automated Directional Solidification Furnace (ADSF), Infrared Communi-cations Flight Experiment (lRCFE), Protein Crystal Growth Il (PCG), Isoelectric Focusing (ISF)-2, Phase Partitioning Experiment (PPE), Aggrega-tion of Red Blood Cells (ARC)-2, Mesoscale Lightning Experiment (MLE)-1, Earth Limb Radiance (ELRAD), Orbiter Experiments (OEX), Autonomous Supporting Instrumentation System (OASlS)-I, two Shuttle Student Involvement Project (SSIP) experiments. Additional Details: STS-26.
NASA communications; 171 deg W; deployed from STS-26 . Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned five crew. Deployed a classified payload. Orbits of Earth: 68. Landed at: Runway 17 dry lake bed at Edwards Air Force Base, . Landing Speed: 359 kph. Touchdown miss distance: 447.00 m. Landing Rollout: 2,171.00 m. Payloads: DoD Mission. Additional Details: STS-27.
Deployed from STS-27. Operations completed March 1997.
Manned five crew. Deployed TDRS 4. Payloads: Deploy IUS (Inertial Upper Stage) with Tracking and Data Relay Satellite (TDRS)-D. Protein Crystal Growth (PCG); Chromosome and Plant Cell Division in Space; IMAX 70mm camera; Shuttle Student Involvement Project (SSIP) experiments: SSIP 82-8, Effects of Weightlessness in Space Flight on the Healing of Bone Fractures, and SSIP 83-9, Chicken Embryo Development in Space; Air Force Maui Optical Site (AMOS) experiment. Additional Details: STS-29.
Deployed from STS 29 3/13/89; NASA communications; 41 deg W. Spacecraft engaged in practical applications and uses of space technology such as weather or communication (US Cat C).
Manned five crew. Deployed Magellan Venus probe. Payloads: Deploy IUS with Magellan spacecraft. Fluids Experiment Apparatus (FEA). Mesoscale Lightning Experiment (MLE), Air Force Maui Optical Site (AMOS) experiment. Additional Details: STS-30.
SAR radar imaging of the Venusian surface, gravitational field mapping. The Magellan spacecraft was deployed from shuttle STS-30 on May 5, 1989, arrived at Venus on August 10, 1990 and was inserted into a near-polar elliptical orbit with a periapsis altitude of 294 km at 9.5 deg. N. The primary objectives of the Magellan mission were to map the surface of Venus with a synthetic aperture radar (SAR) and to determine the topographic relief of the planet. At the completion of radar mapping 98% of the surface was imaged at resolutions better than 100 m, and many areas were imaged multiple times. The mission was divided up into 'cycles', each cycle lasted 243 days (the time necessary for Venus to rotate once under the Magellan orbit - i.e. the time necessary for Magellan to 'see' the entire surface once.) The mission proceeded as follows: 10 Aug 1990 - Venus orbit insertion and spacecraft checkout;15 Sep 1990 - Cycle 1: Radar mapping (left-looking); 15 May 1991 - Cycle 2: Radar mapping (right-looking); 15 Jan 1992 - Cycle 3: Radar mapping (left-looking); 14 Sep 1992 - Cycle 4: Gravity data acquisition; 24 May 1993 - Aerobraking to circular orbit; 3 Aug 1993 - Cycle 5: Gravity data acquisition; 30 Aug 1994 - Windmill experiment; 12 Oct 1994 - Loss of radio signal; 13 Oct 1994 - Loss of spacecraft. A total of 4225 usable SAR imaging orbits was obtained by Magellan. Magellan showed an Earth-sized planet with no evidence of Earth-like plate tectonics. At least 85% of the surface is covered with volcanic flows, the remainder by highly deformed mountain belts. Even with the high surface temperature (475 C) and high atmospheric pressure (92 bars), the complete lack of water makes erosion a negligibly slow process, and surface features can persist for hundreds of millions of years. Some surface modification in the form of wind streaks was observed. Over 80% of Venus lies within 1 km of the mean radius of 6051.84 km. The mean surface age is estimated to be about 500 million years. A major unanswered question concerns whether the entire surface was covered in a series of large events 500 million years ago, or if it has been covered slowly over time. The gravity field of Venus is highly correlated with the surface topography, which indicates the mechanism of topographic support is unlike the Earth, and may be controlled by processes deep in the interior. Details of the global tectonics on Venus were still unresolved.
Deployed from STS-28 8/8/89.
Manned five crew. Deployed 2 classified satellites. Landed at: Runway 17 dry lake bed at Edwards Air Force Base, . Landing Speed: 287 kph. Touchdown miss distance: 1,618.00 m. Landing Rollout: 1,833.00 m. Payloads: DoD Mission. Additional Details: STS-28.
Deployed from STS-28 8/8/89. Believed to be one-off ferret satellite under COBRA BRASS measurement and signature intelligence experiment.
Manned five crew. Deployed Galileo .Payloads: Deploy IUS with Galileo spacecraft. Shuttle Solar Backscatter Ultraviolet (SSBUV), Polymer Morphology (PM) experiments, IMAX camera project, Mesoscale Lightning Experiment (MLE), Air Force Maui Optical Site (AMOS) experiment, Growth Hormone Concentration and Distribution (GHCD) in Plants experiment, Sensor Technology Experiment (STEX), SSIP Student Experiment (SE) 82-15, Ice Crystals Experiment. First flight at this inclination. Additional Details: STS-34.
Deployed from STS-34 10/18/89; entered Jupiter orbit 12/7/95; investigations of Jupiter's moons, atmosphere, magnetosphere; antenna failed to deploy. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Atmospheric probe; deployed from Galileo 7/13/95; entered Jupiter atmosphere 12/7/95. Entry into Jupiter Dec 7
Manned five crew. Deployed a classified payload. Orbits of Earth: 78. Distance traveled: 3,218,687 km. Landed at: Concrete runway 04 at Edwards Air Force Base, Cali. Landing Speed: 368 kph. Touchdown miss distance: 570.00 m. Landing Rollout: 2,366.00 m. Payloads: DoD Mission - third space shuttle night launch. Additional Details: STS-33.
Second Magnum model ELINT satellite. Code name changed to Orion. Deployed from STS-33 November 23, 1989, and boosted to geostationary orbit.
Deployed from STS 32 1/10/89; 177 deg W; leased to U.S. government. The Leasat series was developed as a commercial venture to provide dedicated communications services to the U. S. military. Additional Details: Leasat 5.
Manned five crew. Deployed Leasat 5, retrieved LDEF. Night landing. Payloads: Deployment of Syncom IV-5, retrieval of Long Duration Exposure Facility (LDEF), Fluids Experiment Apparatus (FEA)-3, Protein Crystal Growth (PCG) III-2, Latitude/Longitude Locator (L3), American Flight Echocardiograph (AFE), Characterization of Neurospora Circadian Rhythms in Space (CNCR)-01, Air Force Maui Optical Site (AMOS)-4, Mesoscale Lightning Experiment (MLE), IMAX, Interim Operational Contamination Monitor (lOCM). Additional Details: STS-32.
Deployed from STS-36 2/28/90. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
Manned five crew. Deployed a classified payload. Landed at: Runway 23 dry lake bed at Edwards Air Force Base, . Landing Speed: 368 kph. Touchdown miss distance: 494.00 m. Landing Rollout: 2,407.00 m. Payloads: DoD Mission - Record altitude (through 5/93). Additional Details: STS-36.
Deployed HST (Hubble Space Telescope). Payloads: Deployment of Hubble Space Telescope, IMAX camera in payload bay and in crew compartment, Protein Crystal Growth III-03, Investigation Into Polymer Membrane Process-ing- 01, Air Force Maui Optical Site-05, Radiation Monitoring Equipment III-01, Student Experiment 82-16, and Ascent Particle Monitor 01. Additional Details: STS-31.
Hubble Space Telescope; deployed from STS-31 4/25/90. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
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Deployed from STS 41 10/6/90; solar research. Ulysses is a scientific spacecraft, within the framework of the international solar/polar mission. It will be the first spacecraft to fly over the poles of the sun. Frequency 2111.6073/2293.1481 MHz, 8408.2099 MHz., interplanetary trajectory i nto a polar flyby over the sun. Designator ESA/90/01. Also registered by the United States in ST/SG/SER.E/250, orbital data are taken from that document.
Manned five crew. Deployed a classified payload. Orbits of Earth: 79. Landed at: Runway 33 at Kennedy Space Center, Florida. Landing Speed: 359 kph. Touchdown miss distance: 430.00 m. Landing Rollout: 2,712.00 m. Payloads: DoD Mission. Additional Details: STS-38.
Deployed from STS 38 11/15/90. Boosted to geostationary orbit.
Manned seven crew. Carried ASTRO-1 observatory. Payloads: Ultraviolet Astronomy TeIescope (Astro), Broad-Band X-Ray Telescope (BBXRT), Shuttle Amateur Radio Experiment (SAREX), Air Force Maui Optical Site (AMOS). Additional Details: STS-35.
Astrophysical laboratory for gamma ray observations; deployed from STS-37 4/7/91; renamed Compton Gamma Ray Observatory. The Compton Gamma Ray Observatory was intentionally deorbited on by NASA over the objections of the scientific community on June 3, 2000. NASA decided to end the mission after several orientation gyroscope failures. They felt that if another gyroscope was lost, the heavy spacecraft might eventually reenter out of control.
Manned five crew. Unscheduled EVA to manually deploy the Gamma-Ray Observatory's high-gain antenna, which failed to deploy upon ground command. Payloads: Gamma-Ray Observatory (GRO), Crew/ Equipment Translation Aids (part of Extravehicular Activity Development Flight Experiment), Ascent Particle Monitor (APM), Bioserve Instrumentation Technology Associates Materials Dispersion Apparatus (BlMDA), Protein Crystal Growth (PCG)-Block Il, Space Station Heatpipe Advanced Radiator Element (SHARE)-ll, Shuttle Amateur Radio Experiment (SAREX)-ll, Radiation Monitoring Equipment (RME)-lIl, Air Force Maui Optical Site (AMOS) Calibration Test. Additional Details: STS-37.
Manned seven crew. Deployed USA 70, CRO A, CRO B, CRO C; deployed and retrieved IBSS. Payloads: Infrared Background Signature Survey (lBSS), Air Force Program (AFP)-675, Space Test Payload (STP)-I, Multi-Purpose Experiment Canister (MPEC), Cloud Logic to Optimize Use of Defense Systems (CLOUDS)-1A, Radiation Monitoring Equipment (RME)-lll. Additional Details: STS-39.
Chemical Release Observation; deployed 5/2/91; released gases for observation by IBSS. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
Shuttle Pallet Satellite-II (SPAS-II) experiments were carried out on this classified mission. No details on whether SPAS was released or nature of experiments.
Chemical Release Observation; deployed 5/3/91; released gases for observation by IBSS. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
Infrared Background Signature Survey; sensor technology test; retrieved 5/2/91. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
Classified subsatellite released from shuttle.
Chemical Release Observation; deployed 5/2/91; released gases for observation by IBSS. Spent boosters, spent maneuvering stages, shrouds and other non-functional objects (US Cat D).
Carried Spacelab life sciences module. Payloads: Spacelab Life Sciences (SLS)-1 with long module, getaway special bridge assembly with 12 getaway specials, Physiological Monitoring System (PMS), Urine Monitoring System (UMS), Animal Enclosure Modules (AEM), Middeck Zero-gravity Dynamics Experiment (MODE), 7 Orbiter Experiments Program experiments. Additional Details: STS-40.
Manned five crew. Deployed TDRS 5 satellite. Payloads: Tracking and Data Relay Satellite (TDRS)-E/lnertial Upper Stage (lUS), Space Station Heatpipe Advanced Radiator Element (SHARE)-ll, Shuttle Solar Backscatter Ultraviolet (SSBUV) instrument 03, Optical Communications Through the Shuttle Window (OCTW), Air Force Maui Optical Site (AMOS) Calibration Test, Auroral Photography Experiment (APE)-B, Bioserve-lnstrumentation Technology Associates Materials Dispersion Apparatus (BlMDA)-02, Investigations Into Polymer Membrane Processing (IPMP)-03, Protein Crystal Growth Ill Block Il, Space Acceleration Measure-ment System (SAMS), Solid Surface Combustion Experiment (SSCE)-02, Tank Pressure Control Experiment (TPCE). Additional Details: STS-43.
NASA communications; 174 deg W; deployed from STS-43 8/2/91. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned five crew. Deployed UARS; conducted materials and biological research. Payloads: Upper Atmosphere Research Satellite (UARS), Ascent Particle Monitor (APM)-03, Physiological and Anatomical Rodent Experiment (PARE)-01, Protein Crystal Growth (PCG)-ll-2, Middeck Zero-Gravity Dynamics, Experiment (MODE)-01, Investigations Into Polymer Membrane Processing (IPMP)-04, Cosmic Radiation Effects and Activation Monitor (CREAM-02), Radiation Monitoring Equipment (RME)-lll-06, Shuttle Activation Monitor (SAM)-03, Air Force Maui Optical Site (AMOS) Calibration Test. Additional Details: STS-48.
Upper Atmospheric Research Satellite; deployed from STS 48 9/15/91. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned six crew. Deployed Defense Support Program satellite. Payloads: Defense Support Program satellite/ Inertial Upper Stage, Interim Operational Contamination Monitor, Terra Scout, Military Man in Space, Shuttle Activation Monitor, Cosmic Radiation Effects and Activation Monitor, Radiation Monitoring Equipment Ill, Air Force Maui Optical Site Calibration Test, Ultraviolet Plume Instrument, Visual Function Tester 1. Additional Details: STS-44.
Military early warning; deployed form STS 44 11/25/91.
Manned seven crew. Carried International Microgravity Laboratory-1. Payloads: International Microgravity Laboratory (lML)-1, getaway special (GAS) bridge with 10 getaway specials, IMAX camera, Gelation of Sols: Applied Microgravity Research (GOSAMR)-1, Investigations Into Polymer Mem-brane Processing (IPMP), Radiation Monitoring Equipment (RME)-lll, Student Experiment 81-09: Convection in Zero Gravity, Student Experiment 83-02: Capillary Rise of Liquid Through Granular Porous Media. Additional Details: STS-42.
Manned seven crew. Carried ATLAS-1 experimental package. Payloads: Atmospheric Laboratory for Applications and Science (ATLAS)-1, Shuttle Solar Backscat-ter Ultraviolet (SSBUV)-4, Getaway Special Experiment G-229, Space Tissue Loss (STL)-1, Radiation Monitoring Equipment (RME)-lIl, Visual Function Tester (VFT)-lI, Cloud Logic To Opti-mize Use of Defense Systems (CLOUDS)-1A, Investigations Into Polymer Membrane Process-ing (IPMP), Shuttle Amateur Radio Experiment (SAREX)-Il, Ultraviolet Plume Instrument (UVPl). Additional Details: STS-45.
Retrieved Intelsat 6 and attached new SRM. First active dual rendezvous of two orbiting spacecraft (Endeavour and Intelsat-Vl) First deployment of a drag chute on the orbiter fleet. Payloads: Intelsat-Vl reboost mission hardware, Assembly of Station by EVA Methods (ASEM), Commercial Protein Crystal Growth (CPCG), Air Force Maui Optical Site (AMOS) Calibration Test, Ultraviolet Plume Instrument (UVPl). Additional Details: STS-49.
Carried United States Microgravity Laboratory. First extended-duration mission. Payloads: United States Microgravity Laboratory (USML)-1; Orbital Acceleration Research Experiment (OARE); Investigations Into Polymer Membrane Processing (IPMP), Shuttle Amateur Radio Experiment (SAREX)-ll; Ultraviolet Plume Instrument (UVPl) . Additional Details: STS-50.
Manned seven crew. Deployed Eureca-1; failed to deploy Italian tether probe TSS-1. Payloads: Tethered Satellite System (TSS)-1; European Retrievable Carrier (EURECA)-1L; Evaluation of Oxygen Integration with Materials (EOlM)-lll/ Thermal Energy Management Processes (TEMP)-2A; Consortium for Materials Development In Space Complex Autonomous Payloads (CONCAP)-ll and Ill; IMAX Cargo Bay Camera (ICBC); Limited Duration Space Environment Candidate Materials Exposure (LDCE); Pituitary Growth Hormone Cell Function (PHCF); Ultravio-let Plume Instrument (UVPl). Additional Details: STS-46.
Microgravity experiments; deployed from STS-46 8/2/92; retrieved by STS-57; European Retrievable Carrier. EURECA is a European scientific and technology mission, launched by the US Space Transportation System. The spacecraft is scheduled to be retrieved likewise by the US/STS in late spring/early summer 1993. Designator ESA/92/01. Frequency plan: 2053.4583/22 30 MHz, 28 GHz/ 18 GHz (data-relay via Olympus).
Manned seven crew. Carried Spacelab-J with microgravity and biology experiments. Payloads: Spacelab-J, nine getaway special canister experiments, Israel Space Agency Investigation About Hornets (ISAIAH), Shuttle Amateur Radio Experiment (SAREX) II, Solid Surface Combus-tion Experiment (SSCE). Additional Details: STS-47.
Deployed Lageos 2, CTA. Payloads: Laser Geodynamic Satellite (LAGEOS) II/ Italian Research Interim Stage (IRIS), Canadian Experiments (CANEX) 2, United States Micro-gravity Payload (USMP) 1, Attitude Sensor Pack-age (ASP), Tank Pressure Control Experiment (TPCE), Physiological Systems Experiment (PSE), Heat Pipe Performance (HPP) experiment, Commercial Protein Crystal Growth (CPCG), Shuttle Plume Impingement Experiment (SPIE), Commercial Materials ITA Experiment (CMIX), Crystals by Vapor Transport Experiment (CVTE). Additional Details: STS-52.
Canadian Target Assembly; deployed from STS-52 10/22/92.
60 cm diameter sphere with laser reflectors; deployed from STS-52 10/23/92.
Manned five crew. Deployed classified military satellite USA 89. The ODERACS payload was unable to be deployed because of payload equipment malfunction. Payloads: Department of Defense (DOD)1; Glow Experiment/Cryogenic Heat Pipe Experiment Payload (GCP); Orbital Debris Radar Calibration System (ODERACS); Battlefield Laser Acquisition Sensor Test (BLAST); Cloud Logic To Optimize Use of Defense Systems (CLOUDS) 1A; Cosmic Radiation Effects and Activation Monitor (CREAM); Fluid Acquisition and Resupply Equipment (FARE); Hand-held, Earth-oriented, Real-time, Cooperative, User-friendly, Location-targeting and Environmental System (HER-CULES); Microencapsulation in Space (MIS)-1; Radiation Monitoring Equipment (RME) III; Spare Tissue Loss (STL); Visual Function Tester (VFT)2. Additional Details: STS-53.
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Deployed from STS-53 12/2/92.
NASA communications; deployed from STS-54 1/13/93. Spacecraft engaged in research and exploration of the upper atmosphere or outer space (US Cat B).
Manned five crew. Deployed TDRSS 6. Payloads: Tracking and Data Relay Satellite (TDRS)-F/Inertial Upper Stage (IUS); Diffuse X-ray Spectrometer (DXS); Chromosome and Plant Cell Division in Space (CHROMEX); Commercial Generic Bioprocessing Apparatus (CGBA) A; Physiological and Anatomical Rodent Experiment (PARE) 02; Solid Surface Combustion Experiment (SSCE). Additional Details: STS-54.
Studied solar corona and galaxy; deployed from STS-56 4/11/93; Shuttle Point Autonomous Research Tool for Astronomy; retrieved 4/13/93.
Manned five crew. Carried Atlas-2; deployed and retrieved Spartan 201. Payloads: Atmospheric Laboratory for Applications and Science (ATLAS) 2, Shuttle Solar Backscat-ter Ultraviolet (SSBUV) A, Shuttle Pointed Autonomous Research Tool for Astronomy (SPARTAN) 201 (Solar Wind Generation Experi-ment), Solar Ultraviolet Experiment (SUVE), Commercial Material Dispersion Apparatus (CMIX), Physiological and Anatomical Rodent Experiment (PARE), Hand-held, Earth-oriented, Real-time, Cooperative, User-friendly, Location-targeting, and Environmental System (HER-CULES), Shuttle Amateur Radio Experiment (SAREX) II, Space Tissue Loss (STL), Air Force Maui Optical Site (AMOS), Cosmic Radiation Effects and Activation Monitor (CREAM), Radiation Monitoring Equipment (RME) III. Additional Details: STS-56.
Manned seven crew. Carried German Spacelab-D2. Payloads: Spacelab D-2 with long module, unique support structure (USS), and Reaction Kinetics in Glass Melts (RKGM) getaway special, Shuttle Amateur Radio Experiment (SAREX) II. Additional Details: STS-55.
Manned six crew. Carried Spacehab 1; retrieved Eureca-1 spacecraft. Payloads: Spacehab 01, retrieval of European Retriev-able Carrier (EURECA) Satellite, Superfluid Helium On-Orbit Transfer (SHOOT), Consortium for Materials Development in Space Complex Autonomous Payload (CONCAP)-IV, Fluid Acquisition and Resupply Experiment (FARE), Shuttle Amateur Radio Experiment (SAREX) II, Air Force Maui Optical Site (AMOS), GAS bridge assembly with 12 getaway special payloads. Additional Details: STS-57.
Deployed and retrieved Orfeus-SPAS. During the EVA conducted tests in support of the Hubble Space Telescope first servicing mission and future EVAs, including Space Station assembly and maintenance. First night landing at KSC. Payloads: Advanced Communication Technology Sat-ellite (ACTS)/Transfer Orbit Stage (TOS), Orbiting Retrievable Far and Extreme Ultraviolet Spectrometer—Shuttle Pallet Satellite (ORFEUS-SPAS) with Remote IMAX Camera System (RICS), Limited Duration Space Environ-ment Candidate Materials Exposure (LDCE) (Beam Configuration C), Commercial Protein Crystal Growth (CPCG Block II), Chromosome and Plant Cell Division in Space (CHROMEX), High Resolution Shuttle Glow Spectroscopy-A (HRSGS-A), Auroral Photography Experiment-B (APE-B), Investigation into Polymer Membrane Processing (IPMP), Radiation Monitoring Equip-ment (RME-III), Air Force Maui Optical Site Cal-ibration Test (AMOS), IMAX In-Cabin Camera. Additional Details: STS-51.
Deployed from STS-51.
NASA experimental communications; Advanced Communications Technology Satellite; deployed from STS-51 9/12/93; 100 deg W.
Biological, microgravity experiments aboard Spacelab 2. Payloads: Spacelab Life Sciences (SLS) 2, Shuttle Amateur Radio Experiment (SAREX) II. Additional Details: STS-58.
Manned seven crew. Hubble repair mission. Conducted the most EVAs (5) on a Space Shuttle Flight to that date. Payloads: Hubble Space Telescope (HST) Servicing Mission (SM) 1, IMAX Camera, IMAX Cargo Bay Camera (ICBC), Air Force Maui Optical Site (AMOS). Additional Details: STS-61.
Orbital Debris Radar Calibration Sphere; deployed from STS-60.
Deployed ODERACS A-F, Bremsat, carried Wake Shield Facility. Payloads: Wake Shield Facility (WSF) 1 and SPACEHAB 02. Getaway special bridge assembly experiments: Capillary Pumped Loop (CAPL), Orbital Debris Radar Calibration Spheres (ODERACS), University of Bremen Satellite (BREMSAT), G-514, G-071, and G-536. Shuttle Amateur Radio Experiment (SAREX) II; Auroral Photography Experiment (APE-B). Additional Details: STS-60.
Orbital Debris Radar Calibration Sphere; deployed from STS-60. Space craft engaged in investigation of spaceflight techniques and technology (US Cat A).
Orbital Debris Radar Calibration Sphere; deployed from STS-60.
Atomic oxygen, dust particle, microgravity, reentry experiments.
Orbital Debris Radar Calibration Sphere; deployed from STS-60. Space craft engaged in investigation of spaceflight techniques and technology (US Cat A).
Orbital Debris Radar Calibration Sphere; deployed from STS-60. Space craft engaged in investigation of spaceflight techniques and technology (US Cat A).
Orbital Debris Radar Calibration Sphere; deployed from STS-60. Space craft engaged in investigation of spaceflight techniques and technology (US Cat A).
Carried USMP-2, OAST-2, SAMPIE, TES, EISG. Payloads: United States Microgravity Payload (USMP) 2, Office of Aeronautics and Space Technology (OAST) 2, Dexterous End Effector (DEE), Shuttle Solar Backscatter Ultraviolet/A (SSBUV/A), Limited-Duration Space Environment Candidate Material Exposure (LDCE), Advanced Protein Crystal Growth (APCG), Physiological Systems Experiment (PSE), Commercial Protein Crystal Growth (CPCG), Commercial Generic Bioprocessing Apparatus (CGBA), Auroral Photography Experiment Phase B (APE-B), Middeck Zero-Gravity Dynamics Experiment (MODE), Air Force Maui Optical Site (AMOS) Calibration Test, Bioreactor Demonstration System A. Additional Details: STS-62.
Carried SIR-C SAR radar. Payloads: Space Radar Laboratory (SRL) 1; Consortium for Materials Development in Space Com-plex Autonomous Payload (CONCAP) IV; three getaway special (GAS) payloads; Space Tissue Loss (STL) A, B; Visual Function Tester (VFT) 4; Shuttle Amateur Radio Experiment (SAREX) II. Additional Details: STS-59.
Carried IML-2; microgravity, biology experiments. Payloads: International Microgravity Laboratory (IML) 2, Orbital Acceleration Research Experiment (OARE), Commercial Protein Crystal Growth (CPCG), Air Force Maui Optical Site (AMOS), Military Applications of Ship Tracks (MAST), Shuttle Amateur Radio Experiment (SAREX). Additional Details: STS-65.
Payloads: Lidar In-Space Technology Experiment (LITE), Shuttle Pointed Autonomous Research Tool for Astronomy (SPARTAN) 201-II, Robot-Operated Materials Processing System (ROMPS), Shuttle Plume Impingement Flight Experiment (SPIFEX), getaway special (GAS) bridge assembly with ten GAS experiments, Trajectory Control Sensor (TCS), Simplified Aid for EVA Rescue (SAFER), Solid Surface Combustion Experiment (SSCE), Biological Research in Canisters (BRIC) III, Radiation Monitoring Experiment (RME) III, Military Applications of Ship Tracks (MAST), Shuttle Amateur Radio Experiment (SAREX) II, Air Force Maui Optical Site (AMOS) Calibration Test. Additional Details: STS-64.
Deployed from STS-64 9/13/94; retrieved 9/15/94; solar studies.
Carried SIR-C SAR. Landed at Edwards Air Force Base on October 11. Payloads: Space Radar Laboratory (SRL) 2, five Getaway Special payloads, Chromosome and Plant Cell Division in Space (CHROMEX) 5, Biological Research in Canisters (BRIC) 01, Cosmic Radiation Effects and Activation Monitor (CREAM), Military Application of Ship Tracks (MAST), Commercial Protein Crystal Growth (CPCG). Additional Details: STS-68.
Carried Atlas-3 laboratory; deployed and retrieved CRISTA-SPAS. Payloads: Atmospheric Laboratory for Applications and Science (ATLAS) 3, Cryogenic Infrared Spectrometers and Telescopes for the Atmo-sphere (CRISTA)-Shuttle Pallet Satellite (SPAS) 1, Experiment of the Sun for Complement-ing the ATLAS Payload for Education (ESCAPE) II, Inter-Mars Tissue Equivalent Proportional Counter (ITEPC), Shuttle Solar Backscatter Ultraviolet (SSBUV) A, Physiological and Anatomical Rodent Experiment (PARE/NIH-R), Protein Crystal Growth (PCG-TES and PCG-STES), Space Tissue Loss (STL/NIH-C-A), Shuttle Acceleration Measurement System (SAMS), Heat Pipe Performance (HPP). Additional Details: STS-66.
Released by STS-66 11/4/94; retrieved 11/12/95; atmospheric research.
Deployed ODERACS 2A-2E; deployed and retrieved Spartan 204. Discovery rendezvoused with Russia's space station, Mir, to a distance of 11 m and performed a fly-around, but did not dock with Mir. Payloads: SPACEHAB 03, Shuttle Pointed Autonomous Research Tool for Astronomy (SPARTAN) 204, Cryo Systems Experiment (CSE)/GLO-2 Experi-ment Payload (CGP)/Orbital Debris Radar Calibration Spheres (ODERACS) 2, Solid Surface Combustion Experiment (SSCE), Air Force Maui Optical Site (AMOS), IMAX Cargo Bay Camera (ICBC) Additional Details: STS-63.
Orbital Debris Radar Calibration spheres; deployed from STS 63 2/4/95.
Orbital Debris Radar Calibration spheres; deployed from STS 63 2/4/95. Reentered Sep 29
Orbital Debris Radar Calibration spheres; deployed from STS 63 2/4/95. Reentered?
Orbital Debris Radar Calibration spheres; deployed from STS 63 2/4/95. Reentered Mar 2
Retrievable payload to observe galactic dust in far UV; deployed from STS 63 2/7/95, retrieved 2/9/95.
Orbital Debris Radar Calibration spheres; deployed from STS 63 2/4/95. Reentered Feb 27
Reentered?
Carried Astro 2 astronomy payload with 3 UV telescopes.(attached to Endeavour).Payloads: Ultraviolet Astronomy (ASTRO) 2; Middeck Active Control Experiment (MACE); Protein Crystal Growth—Thermal Enclosure System (PCG-TES) 03; Protein Crystal Growth—Single-Locker Thermal Enclosure System (PCG-STES) 02; Commercial Materials Dispersion Apparatus Minilab/Instrumentation Technology Associates, Inc. Experiments (CMIX) 03; Shuttle Amateur Radio Experiment (SAREX) II; two getaway special experiments. Additional Details: STS-67.
Mir Expedition EO-19. Transferred Budarin, Solovyov to Mir, returned Soyuz TM-21 crew to Earth. After undocking from Mir on July 4, Atlantis spent several days on orbit, carrying out medical research work with the Spacelab-Mir module in the cargo bay. Payloads: Shuttle/Mir Mission 1, Spacelab-Mir, IMAX camera, Shuttle Amateur Radio Experiment (SAREX). Additional Details: STS-71.
Deployed TDRS 7. Payloads: Tracking and Data Relay Satellite (TDRS) G/ Inertial Upper Stage (IUS); Bioreactor Demon-stration System (BDS) B; Biological Research in Canisters (BRIC); Commercial Protein Crystal Growth (CPCG); Hand-Held, Earth-Oriented, Real-Time, Cooperative, User-Friendly, Location-Targeting and Environmental System (HER-CULES); Microcapsules in Space (MIS) B; Physiological and Anatomical Rodent Experiment (PARE)/National Institutes of Health (NIH) Rodents (R); Radiation Monitoring Experiment (RME) III; Shuttle Amateur Radio Experiment (SAREX) II; Space Tissue Loss (STL)/National Institutes of Health (NIH) Cells (C); Military Applications of Ship Tracks (MAST); Visual Function Tester (VFT) 4; Window Experiment (WINDEX). Additional Details: STS-70.
NASA communications; deployed from STS-70 on 7/13/95. Stationed at 149.8 deg W.
Deployed and retrieved Spartan 201, WSF 2. Payloads: Wake Shield Facility (WSF) 2; Shuttle Pointed Autonomous Research Tool for As-tronomy (SPARTAN) 201; International Extreme Ultraviolet Hitchhiker (IEH)1; Inter-Mars Tissue Equivalent Proportional Counter (ITEPC); Extravehicular Activity Development Flight Test (EDFT) 2; Capillary Pumped Loop (CAPL) 2/ getaway special (GAS) bridge assembly with five GAS payloads; Auroral Photography Experiment (APE) B; Biological Research in Canisters (BRIC); Commercial Generic Bioprocessing Apparatus (CGBA), Configuration A; Electrolysis Perfor-mance Improvement Concept Study (EPICS); Space Tissue Loss (STL)/National Institutes of Health (NIH) Cells (C); Commercial Middeck Instrumentation Technology Associates Experiment (CMIX). Additional Details: STS-69.
Released by STS-69 9/8/95; retrieved 9/10/95; examined solar corona.
Wake Shield Facility; released by STS-69 9/11/95; retrieved 9/14/95; semiconductor materials research. Retrieved by Endeavour Sep 14
Carried USML-2 for microgravity experiments (attached to Columbia). Payloads: United States Microgravity Laboratory (USML) 2, Orbital Acceleration Research Experiment (OARE). Additional Details: STS-73.
Atlantis rendezvoused and docked with Mir space station on Nov 15. After departure the Russian-built 316GK Shuttle-Mir docking module remained attached to Mir to provide easier docking capability in the future.
Rendezvoused and docked with Mir space station on November 15. Delivered the Russian-built 316GK Shuttle-Mir docking module to Mir.Payloads: Shuttle-Mir Mission 2; docking module with two attached solar arrays; IMAX Cargo Bay Camera (ICBC); Glow Experiment (GLO-4)/ Photogrammetric Appendage Structural Dynamics Experiment (PASDE) Payload (GPP); Shuttle Amateur Radio Experiment (SAREX) II. Additional Details: STS-74.
GPS receiver, amateur radio tests; examined effect of solar radiation on satellite explosive devices; deployed from STS 72 1/14/96; retrieved 1/16/96.
Deployed and retrieved OAST Flyer; retrieved SFU Space Flyer Unit. Beside the two satellite retrievals, the mission included two spacewalks. Additional Details: STS-72.
LEO. Tether deployment test; 20 km long tether; satellite unintentionally deployed when tether broke 2/25/96 Reentered Mar 19.
Carried TSS-1R tether satellite; satellite tether broke during deployment, making TSS-1R an unintentional free flyer
Payloads: Tethered Satellite System (TSS) Reflight (1R); Orbital Acceleration Research Experiment (OARE) (part of United States Microgravity Payload 3); USMP-3; Commercial Protein Crystal Growth (CPCG) 09, Block IV; Middeck Glovebox Experiment (MGBX) (part of USMP-3). During the deployment of TSS, the tether broke and the satellite was lost. Additional Details: STS-75.
Shuttle-Mir Mission 3. Docked with the Mir space station 24 March 1996; Shannon Lucid was left on Mir for an extended stay. First American EVA on Mir. Payloads: SPACEHAB/Mir 03; KidSat; Shuttle Amateur Radio Experiment (SAREX) II, Configuration M; RME 1304—Mir/ Environmental Effects Payload (MEEP); orbiter docking system RME 1315; Trapped Ions in Space Experiment (TRIS); Extravehicular Activity Development Flight Test (EDFT) 04. Additional Details: STS-76.