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Columbia over North Africa
|Mission duration||14 days, 12 minutes, 32 seconds|
|Distance travelled||9,400,000 kilometers (5,800,000 mi)|
|Spacecraft||Space Shuttle Columbia|
|Landing mass||103,146 kilograms (227,398 lb)|
|Payload mass||11,803 kilograms (26,021 lb)|
|Members||John E. Blaha
Richard A. Searfoss
M. Rhea Seddon
William S. McArthur
David A. Wolf
Shannon W. Lucid
Martin J. Fettman
|Start of mission|
|Launch date||18 October 1993, 14:53UTC|
|Launch site||Kennedy LC-39B|
|End of mission|
|Landing date||1 November 1993, 15:05.42UTC|
|Landing site||Edwards Runway 22|
|Perigee||284 kilometres (176 mi)|
|Apogee||294 kilometres (183 mi)|
Left to right: Wolf, Lucid, Seddon, Searfoss; Standing: Blaha, McArthur, Fettmen
STS-58 was a mission flown by Space Shuttle Columbia launched from Kennedy Space Center, Florida, on 18 October 1993. The missions was primarily devoted to experiments concerning the physiological effects of spaceflight. This was the first in-flight use of the "Portable In-flight Landing Operations Trainer" simulation software. It was also the last time Columbia would land at Edwards Air Force Base.
|Commander||John E. Blaha
|Pilot||Richard A. Searfoss
|Mission Specialist 1||M. Rhea Seddon
|Mission Specialist 2||William S. McArthur
|Mission Specialist 3||David A. Wolf
|Mission Specialist 4||Shannon W. Lucid
|Payload Specialist 1||Martin J. Fettman
|Payload Specialist 1||Jay C. Buckey, Jr.
|Payload Specialist 1||Laurence R. Young
STS-58 was a 1993 shuttle mission dedicated to life sciences research. Columbia’s crew performed a series of experiments to gain knowledge on how the human body adapts to the weightless environment of space. Experiments focused on cardiovascular, regulatory, neurovestibular and musculoskeletal systems of the body. The experiments performed on Columbia’s crew and on laboratory animals (48 rats held in 24 cages), along with data collected on the SLS-1 mission in June 1991, will provide the most detailed and interrelated physiological measurements acquired in the space environment since the Skylab program in 1973 and 1974.
Crew members conducted experiments aimed at understanding bone tissue loss and the effects of microgravity on sensory perception. Two neurovestibular experiments investigating space motion sickness and perception changes were performed on the 2nd day as well. Astronauts Lucid and Fettman wore a headset, called an Accelerometer recording Unit, designed to continually record head movements throughout the day.
Only one minor issue came up on Tuesday, 19 October 1993 associated with a circuit breaker that tripped, cutting off power temporarily to one of the rodent cages in the module. Flight controllers in Houston reported it was not caused by a short in the electrical system and the breaker was reset, restoring power to the cage.
McArthur and Blaha began using the Lower Body Negative Pressure device on flight day 3, which is being tested as a countermeasure for the detrimental effects of microgravity. All three flight crew members will collect urine and saliva samples and keep logs of their exercise and food and fluid intake as part of the Energy Utilization detailed supplementary objective. DSO 612 looks at the nutritial and energy requirements of crew members on long-duration space flights and the relationship between fluid and food consumption.
On Wednesday, 20 October, though the space toilet is working fine, the crew detected a slight leak around the filter door before going to bed. They removed the filter and cleaned up about a teaspoon of water—much less than had been expected. As a precaution, a secondary fan separator unit was used to separate fluid from the air before cycling the air back into the cabin through the filter.
On Thursday, 21 October, Payload Commander Rhea Seddon, Mission Specialists Shannon Lucid and David Wolf and Payload Specialist Martin Fettman collected additional blood and urine samples for the series of metabolic experiments. Some of the samples will follow-up on the calcium absorption experiment performed yesterday. The experiment, sponsored by Dr. C.D. Arnaud of the University of California at San Francisco, studies the mechanisms of how calcium is maintained and used in bone metabolism in space. Based on preliminary results from the 1991 SLS-1 mission, Dr. Arnaud believes the decrease in bone density is due to increased bone breakdown that is not compensated for by a subsequent increase in bone formation.
On Friday, 22 October 1993, using the on-board ham radio called SAREX for Shuttle Amateur Radio Experiment, Blaha and Searfoss contacted school children at the Sycamore Middle School in Pleasant View, Tennessee, and Gardendale Elementary in Pasadena, Texas. The Standard Interface Rack, or SIR, was tested today by Searfoss to demonstrate that equipment can be removed from one rack location and reintegrated into another by a single crew member during orbital operations while maintaining reliable mechanical, data and power interfaces.
Another test flying aboard Columbia was the "Portable In-flight Landing Operations Trainer" (PILOT), a laptop computer simulator that was flown to qualify its use as a tool for helping the mission commander and pilot maintain their proficiency for approach and landing during longer duration Space Shuttle flights. The laptop was controlled using a joy stick hand controller similar to the one used to fly the orbiter in the final minutes before landing. The simulator would continue to see use up to and including the final Shuttle flight.
On Saturday, the payload crew members were scheduled to devote much of their time to metabolic studies of the 48 rodents on board the Spacelab science workshop. Payload commander Rhea Seddon, and crewmates David Wolf, Shannon Lucid and veterinarian Marty Fettman were scheduled to draw blood from the tails of some of the rodents, then inject a special isotope into the rodents to measure the volume of their plasma. Another blood draw would follow, to measure how weightlessness may be affecting the red blood cell count of the animals.
After several ham radio contacts around the country and work in a vacuum bag designed to ease the body's readaptation to Earth's environment, the orbiter crew made up of Commander John Blaha, Pilot Richard Searfoss and Mission Specialist William McArthur oversaw a short firing of one of the orbital maneuvering system engines to drop the low end of Columbia's orbit from 150 to 142 nautical miles (278 to 263 kilometres (163 mi)) to increase the landing opportunities should the mission be extended for weather or a system problem that would keep the crew in orbit two extra days.
On Wednesday, 27 October 1993, Pilot Rick Searfoss put Columbia through some maneuvers as part of the Orbital Acceleration Research Experiment. The main goal of the experiment was to accurately measure the aerodynamic forces that act on the shuttle in orbit and during the early stages of entry. The information will be useful to scientists and engineers planning future Spacelab microgravity research flights in which experiments will need a quiet, motion- free environment to produce the best possible data.
On Thursday, 28 October 1993, after enjoying a half a day off, the astronauts aboard Columbia continued to collect scientific data on how humans and animals adapt to the absence of Earth's gravity.
Payload Commander Rhea Seddon sent down a special message to her husband, Astronaut Office Chief Robert L. Gibson when she surpassed his total of 632 hours, 56 minutes in space. "He's still a really good guy, I still love him a lot, but I've got more hours in space than he does, so there!" she teased. Seddon acknowledged, however, that he has more launches and landings, having flown four times to her three.
Pilot Rick Searfoss took time out from snapping some infrared photography of the wildfires burning in southern California to say that the crew's thoughts are with the firefighters working to quell the flames and the residents whose homes are being threatened. He said he hoped the fires would be brought under control soon, and added that the photographs he was taking will be among some 4,000 frames that will be returned to Earth for meteorologists, geologists, ecologists and archeologists to study after the flight.