Space Shuttle NASA Mission Reports: 1997 Missions, STS-81, STS-82, STS-83, STS-84, STS-94, STS-85, STS-86, STS-87

Nonfiction, Science & Nature, Science, Physics, Astronomy, Other Sciences, History
Cover of the book Space Shuttle NASA Mission Reports: 1997 Missions, STS-81, STS-82, STS-83, STS-84, STS-94, STS-85, STS-86, STS-87 by Progressive Management, Progressive Management
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Author: Progressive Management ISBN: 9781465701909
Publisher: Progressive Management Publication: January 16, 2012
Imprint: Smashwords Edition Language: English
Author: Progressive Management
ISBN: 9781465701909
Publisher: Progressive Management
Publication: January 16, 2012
Imprint: Smashwords Edition
Language: English

These official final program mission reports issued by the NASA Johnson Space Center cover missions in 1997: STS-81, STS-82, STS-83, STS-84, STS-94, STS-85, STS-86, and STS-87. In these thorough reports, with information and specifics not available on NASA website mission descriptions, each orbiter system is reviewed in detail along with technical information on performance and anomalies.

STS-81: The primary objectives of this flight were to perform the fifth rendezvous and docking with the Russian Mir Space Station and perform a logistics resupply and the exchange of a Mir Astronaut. A double Spacehab module carried science experiments and hardware (including the Biorack facility consisting of two incubators, a glovebox, and two refrigerators as well as a refrigerator/freezer), the Space Acceleration Measurements System (SAMS), Risk Mitigation Experiments (RMEs) and Russian logistics in support of the Phase 1 Program requirements.

STS-82: The primary objectives of the STS-82 flight were to perform the operations necessary to fulfill the second on-orbit servicing requirements for the HST. The servicing tasks included installation of the Near Infrared Camera and Multi-Object Spectrometer (NICMOS), installation of the Space Telescope Imaging Spectrograph (STIS), replacement of the Data Interface Unit (DIU) 2 as well as the Engineering/Science Tape Recorder (ESTR)-2.

STS-83: The primary objective of the STS-83 flight was to successfully perform the planned operations of the First Microgravity Science Laboratory (MSL-1).

STS-84: The primary objective of the STS-84 flight was to rendezvous and dock with the Mir Space Station, and perform the exchange of a Mir astronaut. A double Spacehab module and the crew compartment carried science experiments including Protein Crystal Growth - Single Locker Thermal Enclosure System (PCG-STES); Liquid Motion Experiment (LME) hardware; Risk Mitigation Experiments (RME's) including the Cosmic Radiation Effect and Activation Monitor (CREAM), Electrolysis Performance Improvement Concept Study Experiment (EPICS), and the Radiation Monitoring Experiment -III (RME-III); and Russian logistics in support of the Phase 1 Program requirements.

STS-94: The primary objective of the STS-94 flight was to successfully perform the planned operations of the First Microgravity Science Laboratory (MSL-1).

STS-85: The primary objective of the STS-85 flight were to successfully accomplish science objectives by operating the Cryogenic Infrared Spectrometers and Telescopes for the Atmosphere-Shuttle Pallet Satellite (CRISTA-SPAS), to launch and operate in orbit a Manipulator Flight Demonstration (MFD), and to perform operations on the Technology Applications and Science (TAS-01).

STS-86: The primary objectives of the STS-86 flight were to rendezvous and dock with the Mir Space Station, and perform the exchange of a Mir astronaut.

STS-87: The primary objectives of the STS-87 flight were to successfully perform the operations necessary to fulfill the requirements of the United States Microgravity Payload -4 (USMP-4) and SPARTAN-201.

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These official final program mission reports issued by the NASA Johnson Space Center cover missions in 1997: STS-81, STS-82, STS-83, STS-84, STS-94, STS-85, STS-86, and STS-87. In these thorough reports, with information and specifics not available on NASA website mission descriptions, each orbiter system is reviewed in detail along with technical information on performance and anomalies.

STS-81: The primary objectives of this flight were to perform the fifth rendezvous and docking with the Russian Mir Space Station and perform a logistics resupply and the exchange of a Mir Astronaut. A double Spacehab module carried science experiments and hardware (including the Biorack facility consisting of two incubators, a glovebox, and two refrigerators as well as a refrigerator/freezer), the Space Acceleration Measurements System (SAMS), Risk Mitigation Experiments (RMEs) and Russian logistics in support of the Phase 1 Program requirements.

STS-82: The primary objectives of the STS-82 flight were to perform the operations necessary to fulfill the second on-orbit servicing requirements for the HST. The servicing tasks included installation of the Near Infrared Camera and Multi-Object Spectrometer (NICMOS), installation of the Space Telescope Imaging Spectrograph (STIS), replacement of the Data Interface Unit (DIU) 2 as well as the Engineering/Science Tape Recorder (ESTR)-2.

STS-83: The primary objective of the STS-83 flight was to successfully perform the planned operations of the First Microgravity Science Laboratory (MSL-1).

STS-84: The primary objective of the STS-84 flight was to rendezvous and dock with the Mir Space Station, and perform the exchange of a Mir astronaut. A double Spacehab module and the crew compartment carried science experiments including Protein Crystal Growth - Single Locker Thermal Enclosure System (PCG-STES); Liquid Motion Experiment (LME) hardware; Risk Mitigation Experiments (RME's) including the Cosmic Radiation Effect and Activation Monitor (CREAM), Electrolysis Performance Improvement Concept Study Experiment (EPICS), and the Radiation Monitoring Experiment -III (RME-III); and Russian logistics in support of the Phase 1 Program requirements.

STS-94: The primary objective of the STS-94 flight was to successfully perform the planned operations of the First Microgravity Science Laboratory (MSL-1).

STS-85: The primary objective of the STS-85 flight were to successfully accomplish science objectives by operating the Cryogenic Infrared Spectrometers and Telescopes for the Atmosphere-Shuttle Pallet Satellite (CRISTA-SPAS), to launch and operate in orbit a Manipulator Flight Demonstration (MFD), and to perform operations on the Technology Applications and Science (TAS-01).

STS-86: The primary objectives of the STS-86 flight were to rendezvous and dock with the Mir Space Station, and perform the exchange of a Mir astronaut.

STS-87: The primary objectives of the STS-87 flight were to successfully perform the operations necessary to fulfill the requirements of the United States Microgravity Payload -4 (USMP-4) and SPARTAN-201.

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