STS-67
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STS-67 is a Space Shuttle program mission.
Space Shuttle program | |
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Mission Insignia | |
Mission Statistics | |
Mission: | STS-67 |
Shuttle: | Endeavour |
Launch Pad: | 39-A |
Launch: | March 2, 1995. 1:38:34 am EST. |
Landing: | Dryden Flight Research Center, EAFB, March 18, 1995 at 4:47 p.m. EST Runway 22. |
Duration: | 16 days, 15 hours, 08 minutes, 48 seconds. |
Orbit Altitude: | 187 nautical miles (346 km) |
Orbit Inclination: | 28.45 degrees |
Distance Traveled: | 6.9 million miles (11.1 million km) |
Crew photo | |
Missing image STS067(S)002.jpg | |
Previous Mission: STS-63 |
Next Mission: STS-71 |
Contents |
Crew
- Stephen S. Oswald (3), Commander
- William G. Gregory (1), Pilot
- Tamara E. Jernigan (3), Payload Commander
- John M. Grunsfeld (1), Mission Specialist
- Wendy B. Lawrence (1), Mission Specialist
- Ronald A. Parise (2), Payload Specialist
- Samuel T. Durrance (2), Payload Specialist
Mission Parameters
- Mass: 13,116 kg payload
- Perigee: 305 km
- Apogee: 305 km
- Inclination: 28.5°
- Period: 91.5 min
Mission Highlights
Astro-2 is the second dedicated Spacelab mission to conduct astronomical observations in the ultraviolet spectral regions. It consists of three unique instruments - the Hopkins Ultraviolet Telescope (HUT), the Ultraviolet Imaging Telescope (UIT) and the Wisconsin Ultraviolet Photo-Polarimeter Experiment (WUPPE). These experiments will select targets from a list of over 600 and observe objects ranging from some inside the solar system to individual stars, nebulae, supernova remnants, galaxies and active extragalactic objects. This data will supplement data collected on the Astro-1 mission flown on STS-35 in December 1990 aboard Columbia.
Because most ultraviolet radiation is absorbed by Earth's atmosphere, it cannot be studied from the ground. The far and extreme ultraviolet region of the spectrum was largely unexplored before Astro-1, but knowledge of all wavelengths is essential to obtain an accurate picture of the universe. Astro-2 will have almost twice the duration of its predecessor, and a launch at a different time of year allows the telescopes to view different portions of the sky. The mission promises to fill in large gaps in astronomers' understanding of the universe and lay the foundations for more discovery in the future.
On the Middeck, science experiments include the Protein Crystal Growth Thermal Enclosure System Vapor Diffusion Apparatus-03 experiment (PCG-TES-03), the Protein Crystal Growth Single Thermal Enclosure System-02 (PCG-STES-02), the Shuttle Amateur Radio Experiment-II (SAREX-II), the Middeck Active Control Experiment (MACE), the Commercial Materials Dispersion Apparatus Instrumentation Technology Associates Experiments-03 (CMIX-03) and the Midcourse Space Experiment (MSX).
The Middeck Active Control Experiment (MACE) is a space engineering research payload. It consists of a rate gyro, reaction wheels, a precision pointing payload, and a scanning and pointing payload that produces motion disturbances. The goal of the experiment is to test a closed loop control system that will compensate for motion disturbances. On orbit, Commander Stephen S. Oswald and William G. Gregory will use MACE to test about 200 different motion disturbance situations over 45 hours of testing during the mission. Information from MACE will be used to design better control systems that compensate for motion in future spacecraft.
Two Get Away Special (GAS) payloads are also on board. They are the G-387 and G-388 canisters. This experiment is sponsored by the Australian Space Office and AUSPACE ltd. The objectives are to make ultraviolet observations of deep space or nearby galaxies. These observations will be made to study the structure of galactic supernova remnants, the distribution of hot gas in the Magellanic Clouds, the hot galactic halo emission, and emission associated with galactic cooling flows and jets. The two GAS canisters are interconnected with a cable. Canister 1 has a motorized door assembly that exposes a UV telescope to space when opened. UV reflective filters on the telescopes optics determine its UV bandpass. Canister 2 contains two video recorders for data storage and batteries to provide experiment power.
Related articles
- Space science
- Space shuttle
- List of space shuttle missions
- List of human spaceflights chronologically
External links
- NASA mission summary (http://science.ksc.nasa.gov/shuttle/missions/sts-67/mission-sts-67.html)
Previous Mission: STS-63 |
Space Shuttle program | Next Mission: STS-71 |