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ArchivesText SizeSTS-80 Mission: ORFEUS-SPAS II; WSF-3
Space Shuttle: Columbia
Launch Pad: 39B 
Launched: November 19, 1996, 2:55:47 p.m. EST
Landing Site: Kennedy Space Center, Florida
Landing: December 7, 1996, 6:49:05 a.m. EST
Runway: 33
Rollout Distance: 8,721 feet
Rollout Time: 62 seconds
Revolution: 279
Mission Duration: 17 days, 15 hours, 53 minutes, 18 seconds
Orbit Altitude: 218 statute miles
Orbit Inclination: 28.45 degrees
Miles Traveled: 7 million 

Crew Members

                    

Image above: STS-80 Crew photo with Commander Kenneth D. Cockrell, Pilot Kent V. 
Rominger, Mission Specialists Tamara E. Jernigan, Thomas D. Jones and F. Story 
Musgrave. Image Credit: NASA 

Launch Highlights

 Launch date of Oct. 31 first threatened by changeout of STS-79 boosters with 
those slated to fly on STS-80 and delay of STS-79 liftoff. Hurricane 
preparations because of Hurricane Fran in early September halted STS-80 booster 
stacking operations in the Vehicle Assembly Building (VAB), prompting mission 
managers to reschedule launch date to Nov. 8. At Flight Readiness Review (FRR) 
Oct. 28, mission managers declined to formalize launch date pending analysis of 
erosion in STS-79 booster nozzles. At Delta FRR Nov. 4, launch date changed to 
no earlier than Nov. 15 to allow engineers more time to complete study of nozzle 
erosion. At follow-up FRR Nov. 11, Nov. 15 set as official launch date, pending 
a commercial Atlas launch Nov. 13, and launch countdown began. Just two days 
later, launch postponed to Nov. 19 due to scrub of Atlas launch and predicted 
bad weather in KSC vicinity for period of several days, and count remained in an 
extended hold. Launch Nov. 19 occurred about three minutes after scheduled 
opening of window due to hold at T-31 seconds to assess hydrogen concentrations 
in aft engine compartment. Initial post-retrieval inspection of STS-80 nozzles 
indicated pocketing and wash erosion, but less extensive than that which was 
noted on STS-79 nozzles; analysis was continuing.

Mission Highlights

Final shuttle flight of 1996 was highlighted by the successful deployment, 
operation and retrieval of two free-flying research spacecraft. The two planned 
extravehicular activities (EVAs) were canceled.

Orbiting and Retrievable Far and Extreme Ultraviolet Spectrometer-Shuttle Pallet 
Satellite II (ORFEUS-SPAS II) deployed on flight day one to begin approximately 
two weeks of data- gathering. Making its second flight aboard the shuttle, 
ORFEUS-SPAS II featured three primary scientific instruments: the 
ORFEUS-Telescope with the Far Ultraviolet (FUV) Spectrograph and Extreme 
Ultraviolet (EUV) Spectrograph. A secondary but highly complementary payload was 
the Interstellar Medium Absorption Profile Spectrograph (IMAPS). Non-astronomy 
payloads on ORFEUS-SPAS included the Surface Effects Sample Monitor (SESAM), the 
ATV Rendezvous Pre-Development Project (ARP) and the Student Experiment on 
ASTRO-SPAS (SEAS).

ORFEUS-SPAS II mission dedicated to astronomical observations at very short 
wavelengths to: Investigate nature of hot stellar atmospheres; investigate 
cooling mechanisms of white dwarf stars; determine nature of accretion disks 
around collapsed stars; investigate supernova remnants; and investigate 
interstellar medium and potential star-forming regions.

All ORFEUS-SPAS II mission goals were achieved and there were no significant 
problems with either instruments or support hardware. Some 422 observations of 
almost 150 astronomical objects were completed, including the moon, nearby 
stars, distant Milky Way stars, stars in other galaxies, active galaxies and 
quasar 3C273. In comparison to the first ORFEUS-SPAS mission in 1993, the 
ORFEUS-SPAS II instruments were more sensitive and yielded higher-quality data. 
In addition, more than twice the data was obtained than on the first ORFEUS-SPAS 
flight.

Wake Shield Facility-3 (WSF-3) deployed on flight day 4. WSF is a 12-foot 
diameter, free-flying stainless steel disk designed to generate ultravacuum 
environment in which to grow semiconductor thin films for use in advanced 
electronics. Third flight was highly successful, with maximum seven thin film 
growths of semiconductor materials achieved and satellite hardware performing 
near-flawlessly. WSF-3 retrieved after three days of free-flight.

Two planned six-hour EVAs by Jernigan and Jones were designed to evaluate 
equipment and procedures that will be used during construction and maintenance 
of the International Space Station. However, crew could not open outer airlock 
hatch and when troubleshooting did not reveal cause, mission managers concluded 
it would not be prudent to attempt the two EVAs and risk unnecessary damage to 
hatch or seals. Crew was able to evaluate new Pistol Grip Tool, similar to 
handheld drill, in middeck. Post-landing assessment of hatch indicated a small 
screw had become loose from an internal assembly and lodged in an actuator -- a 
gearbox-type mechanism that operates linkages that secure the hatch -- 
preventing crew from opening hatch. Hatch opened easily when replacement 
actuator installed. Analysis was under way to determine what additional checks 
needed to be made on hatches to preclude recurrence of problem.

Other experiments: Space Experiment Module (SEM) to provide increased 
educational access to space; NIH-R4, fourth in series of collaborative 
experiments developed by NASA and National Institutes of Health, to investigate 
role of calcium in blood pressure regulation; NASA/CCM-A, one of series of 
Shuttle bone cell experiments; Biological Research in Canister (BRIC)-09 
experiment to study influence of microgravity on genetically-altered tomato and 
tobacco seedlings; Commercial MDA ITA experiment (CMIX-5), the last in series of 
shuttle experiments; and Visualization in an Experimental Water Capillary Pumped 
Loop (VIEW-CPL), a middeck experiment, to investigate method for spacecraft 
thermal management. Crew also worked with Space Vision System, designed to 
monitor position and alignment of structures in space.

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