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ArchivesText SizeSTS-78 Mission: LMS
Space Shuttle: Columbia
Launch Pad: 39B 
Launched: June 20, 1996, 10:49:00 a.m. EDT
Landing Site: Kennedy Space Center, Florida
Landing: July 7, 1996, 8:36:45 a.m. EDT
Runway: 33
Rollout Distance: 9,339 feet
Rollout Time: 45 seconds
Revolution: 272
Mission Duration: 16 days, 21 hours, 47 minutes, 45 seconds
Orbit Altitude: 173 statute miles
Orbit Inclination: 39 degrees
Miles Traveled: 7 million 

Crew Members

                    

Image above: STS-78 Crew photo with Commander Terence T. Henricks, Pilot Kevin 
R. Kregel, Flight Engineer Susan J. Helms, Mission Specialists Richard M. 
Linnehan, Charles E. Brady, Jr., Payload Specialists Jean-Jacques Favier and 
Robert Brent Thirsk. Image Credit: NASA 

Launch Highlights

 Liftoff proceeded on time. In-cabin camera provided first video images from 
flight deck, beginning with crew ingress and continuing through main engine 
cutoff. Post-launch assessment of spent solid rocket boosters revealed hot gas 
path in motor field joints to, but not past capture feature O-ring. This marked 
first occurrence of combustion product penetration into the J-joint of 
redesigned solid rocket motor (RSRM). Flight safety was not compromised, and 
motor performance met design specification requirements. Probable cause 
attributed to new, more environmentally friendly adhesive and cleaning fluid.

Mission Highlights

Five space agencies (NASA/USA; European Space Agency/Europe; French Space 
Agency/France; Canadian Space Agency/Canada; and Italian Space Agency/Italy) and 
research scientists from 10 countries worked together on primary payload of 
STS-78, Life and Microgravity Spacelab (LMS). More than 40 experiments flown 
were grouped into two areas: life sciences, which included human physiology and 
space biology, and microgravity science, which included basic fluid physics 
investigations, advanced semiconductor and metal alloy materials processing, and 
medical research in protein crystal growth.

LMS investigations conducted via most extensive telescience to date. 
Investigators located at four remote European and four remote U.S. locations, 
similar to what will happen with International Space Station. Mission also made 
extensive use of video imaging to help crew members perform inflight maintenance 
procedures on experiment hardware.

Previous life science investigations have delved into what physiological changes 
take place in microgravity environment; integrated LMS experiments explored why 
these changes occur. Most extensive studies ever conducted on bone and muscle 
loss in space. STS-78 marked first time researchers collected muscle tissue 
biopsy samples both before and after flight. Crew members also were scheduled to 
undergo Magnetic Resonance Imaging (MRI) scans almost immediately after landing. 
Findings from comparison of the biopsy samples, along with various 
musculoskeletal tests conducted during mission, could lead to effective 
countermeasures to reduce inflight muscle atrophy.

Other life science investigations: First ever comprehensive study of sleep 
cycles, 24-hour circadian rhythms and task performance in microgravity. 
Spacecraft orbiting Earth pass through 16 sunrises and sunsets in single 24-hour 
period, which could disrupt normal body rhythms. During two 72-hour time blocks, 
crew members completed questionnaires and measured such functions as eye 
movement and muscle activity during sleep. In the Performance Assessment Work 
Station, crew members performed series of drills involving math problems and 
other mental tests to measure microgravity effects on cognitive, or thinking, 
skills.

Microgravity science investigations included Advanced Gradient Heating Facility, 
in which samples of pure aluminum containing zirconia particles were solidified. 
Could lead to more inexpensive ways to make mixtures of metals and ceramics, 
particularly useful to the metal casting industry. The Advanced Protein 
Crystallization Facility is first ever designed to use three methods for growing 
protein crystals. In Electrohydrodynamics of Liquid Bridges, which focused on 
changes that occur in a fluid bridge suspended between two electrodes. This 
research could finds applications in industrial processes where control of a 
liquid column or spray is used, including in ink-jet printing.

Crew performed in-flight fixes to problem hardware on the Bubble, Drop and 
Particle Unit (BDPU), designed to study fluid physics.

Orbiter itself played key part in test that could help raise Hubble Space 
Telescope to higher orbit in 1997 during second servicing mission. Columbia's 
vernier Reaction Control System jets were gently pulsed to boost orbiter's 
altitude without jarring payloads. Same exercise could be conducted with orbiter 
Discovery during Mission STS-82 to raise HST's orbit without impacting its solar 
arrays.

No significant in-flight problems experienced with orbiter. 

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