Skylab 3

• Mass: about 20,121 kg (44,359 lb)
• Maximum Altitude: 440 km
• Distance: 24.5 million miles (39.4 million km)
• Launch Vehicle: Saturn IB
• Perigee: 423 km
• Apogee: 441 km
• Inclination: 50°
• Period: 93.2 min

Skylab 3 heads into orbit aboard a Saturn IB

Astronaut Jack Lousma participates in an EVA

This shows an extreme ultraviolet view of the Sun (the Apollo Telescope Mount SO82A Experiment) taken during Skylab 3, with the Earth added for scale. On the right an image of the Sun shows a helium emissions, and there is an image on the left showing emissions from iron

While approaching Skylab a propellant leak developed in one of the Apollo Service Module's reaction control system thruster quads. The crew was able to safely dock with the station, but troubleshooting continued with the problem. Six days later, another thruster quad developed a leak, creating concern amongst Mission Control. For the first time, an Apollo spacecraft was rolled out to Launch Complex 39 for Skylab Rescue, made possible by the ability for the station to have two Apollo CSMs docked at the same time. It was eventually determined that the CSM could be safely maneuvered using only two working thruster quads, and the rescue mission was never launched.

After recovering from space sickness[4] the crew, during their first EVA, installed the twin-pole sunshade, one of the two solutions for the destruction of the micrometeoroid shield during Skylab's launch to keep the space station cool. It was installed over the parasol, which was originally deployed through a porthole airlock during Skylab 2. Both were brought to the station by Skylab 2.

Skylab 3 continued a comprehensive medical research program that extended the data on human physiological adaptation and readaptation to space flight collected on the previous Skylab 2 mission. In addition, Skylab 3 extended the astronauts' stay in space from approximately one month to two months. Therefore, the effects of flight duration on physiological adaptation and readaptation could be examined.

A set of core medical investigations were performed on all three Skylab crewed missions. These core investigations were the same basic investigations that were performed on Skylab 2, except that the Skylab 3 inflight tests were supplemented with extra tests based on what researchers learned from the Skylab 2 science results. For example, only leg volume measurements, preflight and postflight stereophotogrammetry, and in-flight maximum calf girth measurements were originally scheduled for all three Skylab missions.

In-flight photographs from Skylab 2 revealed the "puffy face syndrome" which prompted the addition of in-flight torso and limb girth measurements to gather more data on the apparent headward fluid shift on Skylab 3. Other additional tests included arterial blood flow measurements by an occlusive cuff placed around the leg, facial photographs taken before flight and during flight to study the "puffy face syndrome", venous compliance, hemoglobin, urine specific gravity, and urine mass measurements. These inflight tests gave additional information about fluid distribution and fluid balance to get a better understanding of the fluid shift phenomena.

The Skylab 3 biological experiments studied the effects of microgravity on mice, fruit flies, single cells and cell culture media. Human lung cells were flown to examine the biochemical characteristics of cell cultures in the microgravity environment. The two animal experiments were entitled Chronobiology of Pocket Mice and Circadian Rhythm in Vinegar Gnats. Both experiments were unsuccessful due to a power failure 30 hours after launch, which killed the animals.[5]

High school students from across the United States participated in the Skylab missions as the primary investigators of experiments that studied astronomy, physics, and fundamental biology. The student experiments performed on Skylab 3 included the study of libration clouds, X-rays from Jupiter, in-vitro immunology, spider web formation, cytoplasmic streaming, mass measurement, and neutron analysis.

The crew's health was assessed on Skylab by collecting data on dental health, environmental and crew microbiology, radiation, and toxicological aspects of the Skylab orbital workshop. Other assessments were made of astronaut maneuvering equipment and of the habitability of the crew quarters, and crew activities/maintenance experiments were examined on Skylab 2 through 4 to better understand the living and working aspects of life in space.

S150 instrument for galactic X-Ray mapping, sent up with Skylab 3

The S150 X-ray experiment was sent up with Skylab 3. The 1,360 kg X-ray astronomy satellite experiment was designed to look for soft galactic x-rays. Short missions had been done before, and S150 would be a longer project. S150 had a large soft x-ray detector, and was mounted atop the Saturn S-IVB upper stage. When released, S150 flew behind and below Skylab on 28 July 1973. The S150 experiment deployed after the Apollo capsule separated from the S-IVB stage. S150 had its own protective housing for the flight. The experiment on S150 ran for 5 hours, as its batteries allowed S150 to measure half of the sky. Experiment data was recorded on tape-recorder and sent to ground stations when available. S150 was designed by University of Wisconsin scientists Dr. William L. Kraushaar and Alan Bunner. S150 could detect 40-100 angstrom photons. [6][7][8][9] The 2001 Wilkinson Microwave Anisotropy Probe gave a more detailed soft galactic X-ray map, confirming the S150 Galactic X-Ray Mapping finding.[10][11]

The circular crew patch was Leonardo da Vinci's Vitruvian Man, representing the mission's medical experiments and retouched to remove the genitalia. In the background is a disk that is half Sun (including sunspots) and half Earth to represent the experiments done on the flight. The patch has a white background, the crew's names and "Skylab II" with a red, white and blue border. The wives of the crew secretly had an alternate graphic made of a 'universal woman' with their first names in place of the crew's. Stickers with this on them were put in lockers aboard the Command Module to surprise the crew.[12]

• 
  Jack Lousma takes a shower in the station's living quarters
• 
  Alan Bean flies a prototype of the Manned Maneuvering Unit
• 
  Owen Garriott operating the Apollo Telescope Mount
• 
  Garriott sleeps in his quarters, held down with straps to keep him secure in zero-G
• 
  Garriott gives Bean a haircut
• 
  Garriott enjoying a meal in the station's wardroom
• 
  Hurricane Ellen of 1973, as seen from Skylab

The Skylab 3 Command Module being moved to the Great Lakes Science Center

The Sklyab 3 command module returned to Earth with Alan L. Bean, Jack R. Lousma, and Owen K. Garriott on September 25, 1973.[13] In 1977 the command module was transferred to the Smithsonian Institution by NASA.[13]

The Apollo Command Module used on Skylab 3 was for a time on display at the visitor's center of the NASA Glenn Research Center at the Great Lakes Science Center in Cleveland, Ohio.[14]

The module was moved to the Great Lakes Science Center in June 2010.[15] It took a year to plan and US$120,000 to move the capsule.[15]

• 1973 in spaceflight
• Splashdown (spacecraft landing)
• Timeline of longest spaceflights

Wikimedia Commons has media related to Skylab 3.

• Skylab: Command service module systems handbook, CSM 116 – 119 (PDF) April 1972
• Skylab Saturn 1B flight manual (PDF) September 1972
• NASA Skylab Chronology
• Marshall Space Flight Center Skylab Summary
• Skylab 3 Characteristics SP-4012 NASA HISTORICAL DATA BOOK
• "Skylab 3". Life Sciences Data Archive. NASA. Retrieved June 20, 2012.
• NASA Glenn Research Center