Spacelab Module LM1 in Columbia's payload bay, serving as the United States Microgravity Laboratory
|Mission type||Microgravity research|
|Mission duration||15 days, 21 hours, 53 minutes, 16 seconds|
|Distance travelled||10,600,000 kilometres (6,600,000 mi)|
|Spacecraft||Space Shuttle Columbia|
|Payload mass||15,250 kilograms (33,620 lb)|
|Start of mission|
|Launch date||20 October 1995, 13:53:00UTC|
|Launch site||Kennedy LC-39B|
|End of mission|
|Landing date||5 November 1995, 11:45:21UTC|
|Landing site||Kennedy SLF Runway 33|
|Perigee altitude||241 kilometres (150 mi)|
|Apogee altitude||241 kilometres (150 mi)|
Left to right - Seated: Sacco, Rominger, Lopez-Alegria; Standing: Coleman, Bowersox, Leslie, Thornton
STS-73 was a Space Shuttle program mission, during October–November 1995, on board the Space Shuttle Columbia. The mission was the second mission for the United States Microgravity Laboratory. The crew, who spent 16 days in space, were broken up into 2 teams, the red team and the blue team. The mission also included several Detailed Test Objectives or DTO's.
|Commander||Kenneth D. Bowersox|
|Pilot||Kent V. Rominger|
|Mission Specialist 1||Catherine G. Coleman|
|Mission Specialist 2||Michael López-Alegría|
|Mission Specialist 3||Kathryn C. Thornton|
Fourth and last spaceflight
|Payload Specialist 1||Fred W. Leslie|
|Payload Specialist 2||Albert Sacco Jr.|
|Payload Specialist 1||R. Glynn Holt|
|Payload Specialist 2||David H. Matthiesen|
The second United States Microgravity Laboratory (USML-2) Spacelab mission was the prime payload on STS-73. The 16-day flight continued a cooperative effort of the U.S. government, universities and industry to push back the frontiers of science and technology in "microgravity", the near-weightless environment of space.
Some of the experiments carried on the USML-2 payload were suggested by the results of the first USML mission that flew aboard Columbia in 1992 during STS-50. The USML-1 mission provided new insights into theoretical models of fluid physics, the role of gravity in combustion and flame spreading, and how gravity affects the formation of semiconductor crystals. Data collected from several protein crystals grown on USML-1 enabled scientists to determine the molecular structures of those proteins.
USML-2 Built on that foundation. Technical knowledge gained was incorporated into the mission plan to enhance procedures and operations. Where possible, experiment teams refined their hardware to increase scientific understanding of basic physical processes on Earth and in space, as well as to prepare for more advanced operations aboard the International Space Station and other future space programs.
USML-2 Flight controllers and experiment scientists directed science activities from NASA's Spacelab Mission Operations Control facility at the Marshall Space Flight Center. In addition, science teams at several NASA centers and universities monitored and supported operations of a number of experiments.
Other payloads on board included the Orbital Acceleration Research Experiment (OARE), Space Acceleration Measurement System (SAMS), Three Dimensional Microgravity Accelerometer (3DMA), Suppression of Transient Accelerations By Levitation Evaluation (STABLE) and the High-Packed Digital Television Technical Demonstration system.
Launch was originally scheduled for 25 September 1995 but endured six scrubbed launch attempts before its 20 October 1995 lift off. STS-73 and STS-61C both carry the distinction of being tied for the most scrubbed launches, each having launched on their seventh attempt.
This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.