STS-67

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STS-67
Astro2 sts67 big.jpg
ASTRO-2 in Endeavour's payload bay
Names Space Transportation System-68
Mission typeAstronomy
Operator NASA
COSPAR ID 1995-007A OOjs UI icon edit-ltr-progressive.svg
SATCAT no. 23500
Mission duration16 days, 15 hours, 8 minutes, 48 seconds
Distance travelled11,100,000 kilometres (6,900,000 mi)
Orbits completed262 [1]
Spacecraft properties
Spacecraft Space Shuttle Endeavour
Payload mass13,116 kilograms (28,916 lb)
Crew
Crew size7
Members
Start of mission
Launch dateMarch 2, 1995, 06:38:13 (1995-03-02UTC06:38:13Z) UTC
Launch site Kennedy LC-39A
End of mission
Landing dateMarch 18, 1995, 21:47:01 (1995-03-18UTC21:47:02Z) UTC
Landing site Edwards Runway 22
Orbital parameters
Reference system Geocentric
Regime Low Earth
Perigee altitude 305 kilometres (190 mi)
Apogee altitude 305 kilometres (190 mi)
Inclination 28.45 degrees [2]
Period 91.5 min
Sts-67-patch.svg Sts-67 crew.jpg
Left to right – Front row: Oswald, Jernigan, Gregory; Back row: Parise, Lawrence, Grunsfeld, Durrance
  STS-63 (67)
STS-71 (69) 
 

STS-67 was a human spaceflight mission using Space Shuttle Endeavour that launched from Kennedy Space Center, Florida on March 2, 1995.

Contents

Crew

Position Astronaut
Commander Stephen S. Oswald
Third and last spaceflight
Pilot William G. Gregory
Only spaceflight
Mission Specialist 1 John M. Grunsfeld
First spaceflight
Mission Specialist 2 Wendy B. Lawrence
First spaceflight
Mission Specialist 3 Tamara E. Jernigan
Third spaceflight
Payload Specialist 1 Samuel T. Durrance
Second and last spaceflight
Payload Specialist 2 Ronald A. Parise
Second and last spaceflight

Mission highlights

Space Shuttle Endeavour launches from Kennedy Space Center, March 2, 1995 KSC-95EC-0394.jpg
Space Shuttle Endeavour launches from Kennedy Space Center, March 2, 1995

Ultraviolet Imaging Experiments

Astro-2 was the second dedicated Spacelab mission to conduct astronomical observations in the ultraviolet spectral regions (the first was the Astro-1 mission flown on STS-35). The Astro-2 Spacelab consisted of three unique instruments – the Hopkins Ultraviolet Telescope (HUT), the Ultraviolet Imaging Telescope (UIT) and the Wisconsin Ultraviolet Photo-Polarimeter Experiment (WUPPE). These took measurements from objects within the Solar System as well as individual stars, nebulae, supernova remnants, galaxies and active extragalactic objects. The data supplemented the data obtained from the Astro-1 mission.

The purpose of the UIT was to observe UV radiation from space (most UV radiation is absorbed by Earth's atmosphere and cannot be studied from the ground). The data collected from UIT Astro-1 mission provided the first accurate knowledge of UV data from the universe. The UIT in the Astro-2 Spacelab was capable of capturing almost twice the UV spectrum of its predecessor. As STS-67 launched at a different time of year from STS-35, data was collected from portions of the sky that Astro-1 was not able to view.

Middeck Active Control Experiment (MACE)

On the Middeck, science experiments included 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) was a space engineering research payload and activity. It consisted 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 was to test a closed loop control system that could compensate for motion disturbances. On orbit, Commander Stephen S. Oswald and Pilot William G. Gregory used MACE to test about 200 different motion disturbance situations over 45 hours of testing during the mission. Information from MACE was to be used to design better control systems that compensate for motion in future spacecraft.

Getaway Special Payloads

Two Get Away Special (GAS) payloads were also on board. They were the G-387 and G-388 canisters. This experiment was sponsored by the Australian Space Office and AUSPACE ltd. The objectives were to make ultraviolet observations of deep space or nearby galaxies. These observations were 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 were interconnected with a cable. Canister 1 had a motorized door assembly that exposed a UV telescope to space when opened. UV reflective filters on the telescopes optics determine its UV bandpass. Canister 2 contained two video recorders for data storage and batteries to provide experiment power. It was Space Shuttle Endeavour's longest flight.

Mission insignia

The spiral galaxy, Jupiter, and the four moons (total of six space objects) as well as the seven stars of the insignia symbolize the flight's numerical designation in the Space Transportation System's mission sequence. Endeavour, with ASTRO-2, is speeding by.

See also

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References

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