Space Shuttle Columbia disaster





































Space Shuttle Columbia disaster

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STS-107 flight insignia

Date February 1, 2003; 16 years ago (2003-02-01)
Time 08:59 EST (13:59 UTC)
Location Over Texas and Louisiana
Cause Wing damage from debris
Outcome Shuttles grounded for 29 months
Casualties





























Commander Rick D. Husband
Pilot William C. McCool
Payload commander Michael P. Anderson
Mission specialist Kalpana Chawla
Mission specialist David M. Brown
Mission specialist Laurel Clark
Mission specialist Ilan Ramon
Inquiries
Columbia Investigation Board

On February 1, 2003, the Space Shuttle Columbia disintegrated upon reentering Earth's atmosphere, killing all seven crew members. The disaster was the second fatal accident in the Space Shuttle program after Challenger, which broke apart and killed the seven-member crew 73 seconds after liftoff in 1986.


During the launch of STS-107, Columbia's 28th mission, a piece of foam insulation broke off from the Space Shuttle external tank and struck the left wing of the orbiter. A few previous shuttle launches had seen damage ranging from minor to nearly catastrophic from foam shedding,[1][2] but some engineers suspected that the damage to Columbia was more serious. NASA managers limited the investigation, reasoning that the crew could not have fixed the problem if it had been confirmed.[3] When Columbia re-entered the atmosphere of Earth, the damage allowed hot atmospheric gases to penetrate the heat shield and destroy the internal wing structure, which caused the spacecraft to become unstable and break apart.[4]


After the disaster, Space Shuttle flight operations were suspended for more than two years, as they had been after the Challenger disaster. Construction of the International Space Station (ISS) was put on hold; the station relied entirely on the Russian Roscosmos State Space Corporation for resupply for 29 months until Shuttle flights resumed with STS-114 and 41 months for crew rotation until STS-121.


Several technical and organizational changes were made, including adding a thorough on-orbit inspection to determine how well the shuttle's thermal protection system had endured the ascent, and keeping a designated rescue mission ready in case irreparable damage was found. Except for one final mission to repair the Hubble Space Telescope, subsequent shuttle missions were flown only to the ISS so that the crew could use it as a haven in case damage to the orbiter prevented safe reentry.




Contents






  • 1 Crew


  • 2 Debris strike during launch


  • 3 Flight risk management


  • 4 Re-entry timeline


  • 5 Crew survivability aspects


    • 5.1 Depressurization


    • 5.2 Off-nominal dynamic G environment


    • 5.3 Separation of the crew members from the crew module and the seats


    • 5.4 Exposure to high-speed / high-altitude environment


    • 5.5 Ground impact




  • 6 Presidential response


  • 7 Recovery of debris


    • 7.1 Crew cabin video




  • 8 Investigation


    • 8.1 Initial investigation


    • 8.2 Columbia Accident Investigation Board


    • 8.3 Conclusions


    • 8.4 Other contributing factors


    • 8.5 Possible emergency procedures




  • 9 Memorials


  • 10 Effect on space programs


  • 11 Sociocultural aftermath


    • 11.1 Fears of terrorism


    • 11.2 Purple streak image


    • 11.3 2003 Armageddon film hoax


    • 11.4 Music




  • 12 See also


  • 13 Notes


  • 14 References


  • 15 External links





Crew




The crew of STS-107 in October 2001. From left to right: Brown, Husband, Clark, Chawla, Anderson, McCool, Ramon



  • Commander: Rick D. Husband, a U.S. Air Force colonel and mechanical engineer, who piloted a previous shuttle during the first docking with the International Space Station (STS-96)

  • Pilot: William C. McCool, a U.S. Navy commander

  • Payload commander: Michael P. Anderson, a U.S. Air Force lieutenant colonel, physicist, and mission specialist who was in charge of the science mission


  • Payload specialist: Ilan Ramon, a colonel in the Israeli Air Force and the first Israeli astronaut

  • Mission specialist: Kalpana Chawla, aerospace engineer who was on her second space mission

  • Mission specialist: David M. Brown, a U.S. Navy captain trained as an aviator and flight surgeon. Brown worked on scientific experiments.

  • Mission specialist: Laurel Blair Salton Clark, a U.S. Navy captain and flight surgeon. Clark worked on biological experiments.



Debris strike during launch





Columbia lifting off on its final mission. The light-colored triangle visible at the base of the strut near the nose of the orbiter is the left bipod foam ramp.




Space Shuttle external tank foam block




Close-up of the left bipod foam ramp that broke off and damaged the shuttle wing


The shuttle's main fuel tank was covered in thermal insulation foam intended to prevent ice from forming when the tank is full of liquid hydrogen and oxygen. Such ice could damage the shuttle if shed during lift-off.


Mission STS-107 was the 113th Space Shuttle launch. Planned to begin on January 11, 2001, the mission was delayed 18 times[5] and eventually launched on January 16, 2003, following STS-113. The Columbia Accident Investigation Board determined that this delay had nothing to do with the catastrophic failure.[5]


At 81.7 seconds after launch from Kennedy Space Center's LC-39-A, a suitcase-sized piece of foam broke off from the external tank (ET), striking Columbia's left wing reinforced carbon-carbon (RCC) panels. As demonstrated by ground experiments conducted by the Columbia Accident Investigation Board, this likely created a six-to-ten-inch-diameter (15 to 25 cm) hole, allowing hot gases to enter the wing when Columbia later re-entered the atmosphere. At the time of the foam strike, the orbiter was at an altitude of about 65,600 feet (20.0 km; 12.42 mi), traveling at Mach 2.46.[citation needed]


The left bipod foam ramp is an approximately three-foot-long (1 m) aerodynamic component made entirely of foam. The foam, not normally considered to be a structural material, is required to bear some aerodynamic loads. Because of these special requirements, the casting-in-place and curing of the ramps may be performed only by a senior technician.[6] The bipod ramp (having left and right sides) was originally designed to reduce aerodynamic stresses around the bipod attachment points at the external tank, but it was proven unnecessary in the wake of the accident and was removed from the external tank design for tanks flown after STS-107 (another foam ramp along the liquid oxygen line was also later removed from the tank design to eliminate it as a foam debris source, after analysis and tests proved this change safe).


Bipod ramp insulation had been observed falling off, in whole or in part, on four previous flights: STS-7 (1983), STS-32 (1990), STS-50 (1992) and most recently STS-112 (just two launches before STS-107). All affected shuttle missions completed successfully. NASA management came to refer to this phenomenon as "foam shedding". As with the O-ring erosion problems that ultimately doomed the Space Shuttle Challenger, NASA management became accustomed to these phenomena when no serious consequences resulted from these earlier episodes. This phenomenon was termed "normalization of deviance" by sociologist Diane Vaughan in her book on the Challenger launch decision process.[7]


As it happened, STS-112 had been the first flight with the "ET cam", a video feed mounted on the ET for the purpose of giving greater insight to the foam shedding problem. During that launch a chunk of foam broke away from the ET bipod ramp and hit the SRB-ET attach ring near the bottom of the left solid rocket booster (SRB) causing a dent four inches wide and three inches deep in it.[8] After STS-112, NASA leaders analyzed the situation and decided to press ahead under the justification that "[t]he ET is safe to fly with no new concerns (and no added risk)" of further foam strikes.[9]


Video taken during lift-off of STS-107 was routinely reviewed two hours later and revealed nothing unusual. The following day, higher-resolution film that had been processed overnight revealed the foam debris striking the left wing, potentially damaging the thermal protection on the Space Shuttle.[10] At the time, the exact location where the foam struck the wing could not be determined due to the low resolution of the tracking camera footage.


Meanwhile, NASA's judgment about the risks was revisited. Linda Ham, chair of the Mission Management Team (MMT), said, "Rationale was lousy then and still is." Ham and Shuttle Program manager Ron Dittemore had both been present at the October 31, 2002, meeting where the decision to continue with launches was made.[11]


Post-disaster analysis revealed that two previous shuttle launches (STS-52 and -62) also had bipod ramp foam loss that went undetected. In addition, protuberance air load (PAL) ramp foam had also shed pieces, and there were also spot losses from large-area foams.



Flight risk management


In a risk-management scenario similar to the Challenger disaster, NASA management failed to recognize the relevance of engineering concerns for safety and suggestions for imaging to inspect possible damage, and failed to respond to engineers' requests about the status of astronaut inspection of the left wing. Engineers made three separate requests for Department of Defense (DOD) imaging of the shuttle in orbit to determine damage more precisely. While the images were not guaranteed to show the damage, the capability existed for imaging of sufficient resolution to provide meaningful examination. NASA management did not honor the requests and in some cases intervened to stop the DOD from assisting.[12] The CAIB recommended subsequent shuttle flights be imaged while in orbit using ground-based or space-based DOD assets.[13] Details of the DOD's unfulfilled participation with Columbia remain secret; retired NASA official Wayne Hale stated in 2012 that "activity regarding other national assets and agencies remains classified and I cannot comment on that aspect of the Columbia tragedy".[14]


Throughout the risk assessment process, senior NASA managers were influenced by their belief that nothing could be done even if damage were detected. This affected their stance on investigation urgency, thoroughness and possible contingency actions. They decided to conduct a parametric "what-if" scenario study more suited to determine risk probabilities of future events, instead of inspecting and assessing the actual damage. The investigation report in particular singled out NASA manager Linda Ham for exhibiting this attitude.[15] In 2013, Hale recalled that Director of Mission Operations Jon C. Harpold shared with him before Columbia's destruction a mindset which Hale himself later agreed was widespread at the time, even among the astronauts themselves:


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You know, there is nothing we can do about damage to the [thermal protection system]. If it has been damaged it's probably better not to know. I think the crew would rather not know. Don't you think it would be better for them to have a happy successful flight and die unexpectedly during entry than to stay on orbit, knowing that there was nothing to be done, until the air ran out?[16]


Much of the risk assessment hinged on damage predictions to the thermal protection system. These fall into two categories: damage to the silica tile on the wing lower surface, and damage to the reinforced carbon-carbon (RCC) leading-edge panels. The TPS includes a third category of components, thermal insulating blankets, but damage predictions are not typically performed on them. Damage assessments on the thermal blankets can be performed after an anomaly has been observed, and this was done at least once after the return to flight following Columbia's loss.


Before the flight NASA believed that the RCC was very durable. Charles F. Bolden, who worked on tile-damage scenarios and repair methods early in his astronaut career, said in 2004 that:[17]



... never did we talk about [the RCC] because we all thought that it was impenetrable ... I spent fourteen years in the space program flying, thinking that I had this huge mass that was about five or six inches thick on the leading edge of the wing. And, to find after Columbia that it was fractions of an inch thick, and that it wasn't as strong as the Fiberglas on your Corvette, that was an eye-opener, and I think for all of us ... the best minds that I know of, in and outside of NASA, never envisioned that as a failure mode.


Damage-prediction software was used to evaluate possible tile and RCC damage. The tool for predicting tile damage was known as "Crater", described by several NASA representatives in press briefings as not actually a software program but rather a statistical spreadsheet of observed past flight events and effects. The "Crater" tool predicted severe penetration of multiple tiles by the impact if it struck the TPS tile area, but NASA engineers downplayed this. It had been shown that the model overstated damage from small projectiles, and engineers believed that the model would also overstate damage from larger Spray-On Foam Insulation (SOFI) impacts. The program used to predict RCC damage was based on small ice impacts the size of cigarette butts, not larger SOFI impacts, as the ice impacts were the only recognized threats to RCC panels up to that point. Under one of 15 predicted SOFI impact paths, the software predicted an ice impact would completely penetrate the RCC panel. Engineers downplayed this, too, believing that impacts of the less dense SOFI material would result in less damage than ice impacts. In an e-mail exchange, NASA managers questioned whether the density of the SOFI could be used as justification for reducing predicted damage. Despite engineering concerns about the energy imparted by the SOFI material, NASA managers ultimately accepted the rationale to reduce predicted damage of the RCC panels from possible complete penetration to slight damage to the panel's thin coating.[18]


Ultimately the NASA Mission Management Team felt there was insufficient evidence to indicate that the strike was an unsafe situation, so they declared the debris strike a "turnaround" issue (not of highest importance) and denied the requests for the Department of Defense images.


On January 23, flight director Steve Stich sent an e-mail to Columbia, informing commander Husband and pilot McCool of the foam strike while unequivocally dismissing any concerns about entry safety.[19][20]



During ascent at approximately 80 seconds, photo analysis shows that some debris from the area of the -Y ET Bipod Attach Point came loose and subsequently impacted the orbiter left wing, in the area of transition from Chine to Main Wing, creating a shower of smaller particles. The impact appears to be totally on the lower surface and no particles are seen to traverse over the upper surface of the wing. Experts have reviewed the high speed photography and there is no concern for RCC or tile damage. We have seen this same phenomenon on several other flights and there is absolutely no concern for entry.[21]


Edward Tufte, an expert in information design and presentation,[22] remarked on poor modes of communication during the assessment made on the ground, before Columbia's reentry. NASA and Boeing favored Microsoft PowerPoint for conveying information. PowerPoint uses multi-level bullet points and orients towards single-page-of-information groupings. This is not ideal for complex scientific and engineering reports and may have caused recipients to draw incorrect conclusions. In particular, the slide format may have emphasized optimistic options and glossed over the more accurate pessimistic viewpoints.[23]



Re-entry timeline


Columbia was scheduled to land at 09:16 EST.[Note 1][Note 2]



  • 02:30 EST, February 1, 2003: The Entry Flight Control Team began duty in the Mission Control Center.

The Flight Control Team had not been working on any issues or problems related to the planned de-orbit and re-entry of Columbia. In particular, the team had indicated no concerns about the debris that hit the left wing during ascent, and treated the re-entry like any other. The team worked through the de-orbit preparation checklist and re-entry checklist procedures. Weather forecasters, with the help of pilots in the Shuttle Training Aircraft, evaluated landing-site weather conditions at the Kennedy Space Center.


  • 08:00: Mission Control Center Entry Flight Director LeRoy Cain polled the Mission Control room for a GO/NO-GO decision for the de-orbit burn.

All weather observations and forecasts were within guidelines set by the flight rules, and all systems were normal.



  • 08:10: The Capsule Communicator (CAPCOM) (and astronaut) Charles O. Hobaugh told the crew that they were GO for de-orbit burn.


  • 08:15:30 (EI-1719): Husband and McCool executed the de-orbit burn using Columbia's two Orbital Maneuvering System engines.


The Orbiter was upside down and tail-first over the Indian Ocean at an altitude of 175 miles (282 km) and speed of 17,500 miles per hour (28,200 km/h) when the burn was executed. A 2-minute, 38-second de-orbit burn during the 255th orbit slowed the Orbiter to begin its re-entry into the atmosphere. The burn proceeded normally, putting the crew under about one-tenth gravity. Husband then turned Columbia right side up, facing forward with the nose pitched up.


  • 08:44:09 (EI+000): Entry Interface (EI), arbitrarily defined as the point at which the Orbiter entered the discernible atmosphere at 400,000 feet (120 km; 76 mi), occurred over the Pacific Ocean.

As Columbia descended, the heat of reentry caused wing leading-edge temperatures to rise steadily, reaching an estimated 2,500 °F (1,370 °C) during the next six minutes. (As former Space Shuttle Program Manager Wayne Hale said in a press briefing, about 90% of this heating is the result of compression of the atmospheric gas caused by the orbiter's supersonic flight, rather than the result of friction.)




Columbia at about 08:57. Debris is visible coming from the left wing (bottom). The image was taken at Starfire Optical Range at Kirtland Air Force Base.



  • 08:48:39 (EI+270): A sensor on the left wing leading edge spar showed strains higher than those seen on previous Columbia re-entries.

This was recorded only on the Modular Auxiliary Data System, which is similar in concept to a flight data recorder, and was not sent to ground controllers or shown to the crew.


  • 08:49:32 (EI+323): Columbia executed a planned roll to the right. Speed: Mach 24.5.


Columbia began a banking turn to manage lift and therefore limit the Orbiter's rate of descent and heating.



  • 08:50:53 (EI+404): Columbia entered a 10-minute period of peak heating, during which the thermal stresses were at their maximum. Speed: Mach 24.1; altitude: 243,000 feet (74 km; 46.0 mi).


  • 08:52:00 (EI+471): Columbia was about 300 miles (480 km) west of the California coastline.


The wing leading-edge temperatures usually reached 2,650 °F (1,450 °C) at this point.


  • 08:53:26 (EI+557): Columbia crossed the California coast west of Sacramento. Speed: Mach 23; altitude: 231,600 feet (70.6 km; 43.86 mi).




Columbia debris (in red, orange, and yellow) detected by National Weather Service radar over Texas and Louisiana


The Orbiter's wing leading edge typically reached more than 2,800 °F (1,540 °C) at this point.


  • 08:53:46 (EI+577): Various people on the ground saw signs of debris being shed. Speed: Mach 22.8; altitude: 230,200 feet (70.2 km; 43.60 mi).

The hot air surrounding the Orbiter suddenly brightened, causing a streak in the Orbiter's luminescent trail that was quite noticeable in the pre-dawn skies over the West Coast. Observers witnessed four similar events during the following 23 seconds. Dialogue on some of the amateur footage indicates the observers were aware of the abnormality of what they were filming.



  • 08:54:24 (EI+615): The MMACS officer, Jeff Kling, informed the Flight Director that "four hydraulic fluid temperature sensors in the left wing had stopped reporting." In Mission Control, re-entry had been proceeding normally up to this point.


  • 08:54:25 (EI+616): Columbia crossed from California into Nevada airspace. Speed: Mach 22.5; altitude: 227,400 feet (69.3 km; 43.07 mi).


Witnesses observed a bright flash at this point and 18 similar events in the next four minutes.



  • 08:55:00 (EI+651): Nearly 11 minutes after Columbia re-entered the atmosphere, wing leading-edge temperatures normally reached nearly 3,000 °F (1,650 °C).


  • 08:55:32 (EI+683): Columbia crossed from Nevada into Utah. Speed: Mach 21.8; altitude: 223,400 feet (68.1 km; 42.31 mi).


  • 08:55:52 (EI+703): Columbia crossed from Utah into Arizona.


  • 08:56:30 (EI+741): Columbia began a roll reversal, turning from right to left over Arizona.


  • 08:56:45 (EI+756): Columbia crossed from Arizona to New Mexico. Speed: Mach 20.9; altitude: 219,000 feet (67 km; 41.5 mi).


  • 08:57:24 (EI+795): Columbia passed just north of Albuquerque.


  • 08:58:00 (EI+831): At this point, wing leading-edge temperatures typically decreased to 2,880 °F (1,580 °C).


  • 08:58:20 (EI+851): Columbia crossed from New Mexico into Texas. Speed: Mach 19.5; altitude: 209,800 feet (63.9 km; 39.73 mi).


At about this time, the Orbiter shed a Thermal Protection System tile, the most westerly piece of debris that has been recovered. Searchers found the tile in a field in Littlefield, Texas, just northwest of Lubbock.


  • 08:59:15 (EI+906): MMACS informed the Flight Director that "pressure readings on both left main landing-gear tires were indicating "off-scale low"."

"Off-scale low" is a reading that falls below the minimum capability of the sensor, and it usually indicates that the sensor has stopped functioning, due to internal or external factors, not that the quantity it measures is actually below the sensor's minimum response value.



  • 08:59:32 (EI+923): A broken response from the mission commander was recorded: "Roger, uh, bu – [cut off in mid-word] ..." It was the last communication from the crew and the last telemetry signal received in Mission Control. The Flight Director then instructed the Capsule Communicator (CAPCOM) to let the crew know that Mission Control saw the messages and was evaluating the indications, and added that the Flight Control Team did not understand the crew's last transmission.


  • 08:59:37 (EI+928): Hydraulic pressure, which is required to move the flight control surfaces, was lost at about 08:59:37. At that time, the Master Alarm would have sounded for the loss of hydraulics, used to move flight control surfaces. The shuttle would have started to roll and yaw uncontrollably, and the crew would have become aware of the serious problem.[26]


  • 09:00:18 (EI+969): Videos and eyewitness reports by observers on the ground in and near Dallas indicated that the Orbiter had disintegrated overhead, continued to break up into smaller pieces, and left multiple ion trails, as it continued eastward. In Mission Control, while the loss of signal was a cause for concern, there was no sign of any serious problem. Before the orbiter broke up at 09:00:18, the Columbia cabin pressure was nominal and the crew was capable of conscious actions.[26] Although the crew module remained mostly intact through the breakup, it was damaged enough that it lost pressure at a rate fast enough to incapacitate the crew within seconds,[27] and was completely depressurized no later than 09:00:53.


  • 09:00:57 (EI+1008): The crew module, intact to this point, was seen breaking into small subcomponents. It disappeared from view at 09:01:10. The crew members, if not already dead, were killed no later than this point.


  • 09:05: Residents of north central Texas, particularly near Tyler, reported a loud boom, a small concussion wave, smoke trails and debris in the clear skies above the counties east of Dallas.


  • 09:12:39 (EI+1710): After hearing of reports of the orbiter being seen to break apart, Entry Flight Director LeRoy Cain declared a contingency (events leading to loss of the vehicle) and alerted search-and-rescue teams in the debris area. He called on the Ground Controller to "lock the doors", meaning no one would be permitted to enter or leave until everything needed for investigation of the accident had been secured.[28] Two minutes later, Mission Control put contingency procedures into effect.



Crew survivability aspects


In 2008, NASA released a detailed report on survivability aspects of the Columbia reentry.[29] In 2014, NASA released a further report detailing the aeromedical aspects of the disaster.[30] The crew were exposed to five lethal events[30]:88 in the following order:



Depressurization


After the initial loss of control, Columbia's "cabin pressure was nominal and the crew was capable of conscious actions".[29]:2-88 During this period the crew attempted to regain control of the shuttle.[29]:3-70 As Columbia spun out of control, aerodynamic forces caused the orbiter to yaw to the right, exposing its underside to extreme aerodynamic forces and causing the orbiter to break up. Depressurization began when the shuttle forebody separated from the midbody 41 seconds after loss of control. The crew module pressure vessel was penetrated when it collided with the fuselage, and the "depressurization rate was high enough to incapacitate the crewmembers within seconds so that they were unable to perform actions such as lowering their visors." The crew lost consciousness, suffering massive pulmonary barotrauma, ebullism and cessation of respiration.[30]:89,101-103



Off-nominal dynamic G environment


The shuttle's separated nose section rotated unsteadily about all three axes. The crew (now unconscious or deceased) were unable to brace against this motion, and were also harmed by aspects of their protective equipment:



  • Lack of upper-body and arm/leg restraints: the crew's torsos were free to move because "the strap velocity was lower than the locking threshold velocity of the inertia reel system" and because the seat restraints did not prevent lateral movement. Fractures consistent with flailing arms and legs were also observed.[30]:91,105-106

  • Non-conformal helmets: unlike a racing helmet, the ACES suit helmets allowed the crew's heads to move inside the helmet, causing blunt force trauma during collisions. The helmet neck ring acted as a fulcrum for cervical vertebrae fractures as the skull whipped backwards, as well as inflicting jaw injuries when wind blasted the helmet off.[30]:105,104,111



Separation of the crew members from the crew module and the seats


As the crew module disintegrated, the crew received lethal trauma from their seat restraints and were exposed to the hostile aerodynamic and thermal environment of re-entry, as well as molten Columbia debris.[30]:92,108-110



Exposure to high-speed / high-altitude environment


After separation from the crew module, the deceased crewmembers entered an environment with "lack of oxygen, low atmospheric pressure, high thermal loads as a result of deceleration from high Mach numbers, shock wave interactions, aerodynamic accelerations, and exposure to cold temperatures."[30]:93 NASA stated that despite not being certified for those conditions, the ACES suit "may potentially be capable of protecting the crew" above 100,000 feet, [29]:1-29 although in Columbia's case they had already been destroyed by the cabin's thermal environment during breakup.



Ground impact


The crewmembers had lethal-level injuries sustained from ground impact.[30]:94 The official NASA report omitted some of the more graphic details on the recovery of the remains; witnesses reported finds such as a human heart and parts of femur bones.[31]


All evidence indicated that crew error was in no way responsible for the disintegration of the orbiter, and they had acted correctly and according to procedure at the first indication of trouble. Although some of the crew were not wearing gloves or helmets during reentry and some were not properly restrained in their seats, doing these things would have added nothing to their survival chances other than perhaps keeping them alive and conscious another 30 or so seconds.[32]



Presidential response




President George W. Bush's address on the Columbia's destruction, February 1, 2003


At 14:04 EST (19:04 UTC), President George W. Bush said, "This day has brought terrible news and great sadness to our country ... The Columbia is lost; there are no survivors". Despite the disaster, Bush said, "The cause in which they died will continue ... Our journey into space will go on".[33] Bush later declared East Texas a federal disaster area, allowing federal agencies to help with the recovery effort.[34]



Recovery of debris




A grid on the floor is used to organize recovered debris



refer to caption

Recovered power-head of one of Columbia's main engines


More than 2,000 debris fields were found in sparsely populated areas from Nacogdoches in East Texas, where a large amount of debris fell, to western Louisiana and the southwestern counties of Arkansas. A large amount of debris was recovered between Tyler, Texas and Palestine, Texas. One debris field has been mapped along a path stretching from south of Fort Worth to Hemphill, Texas, as well as into parts of Louisiana.[35] Places that had debris included Stephen F. Austin State University in Nacogdoches and several casinos in Shreveport, Louisiana.[35] Along with pieces of the shuttle and bits of equipment, searchers also found human body parts, including arms, feet, a torso, and a heart.[36]


In the months after the disaster, the largest-ever organized ground search took place.[37]
Thousands of volunteers descended upon Texas to participate in the effort to gather the Shuttle's remains. According to Mike Ciannilli, Project Manager of the Columbia Research and Preservation Office, "[these people] put their life on hold to help out the nation's space program," showing "what space means to people."[38]
NASA issued warnings to the public that any debris could contain hazardous chemicals, that it should be left untouched, its location reported to local emergency services or government authorities, and that anyone in unauthorized possession of debris would be prosecuted. Because of the widespread area, volunteer amateur radio operators accompanied the search teams to provide communications support.[39]


A group of small (one-millimeter or 0.039-inch) adult Caenorhabditis elegans worms, living in petri dishes enclosed in aluminum canisters, survived reentry and impact with the ground and were recovered weeks after the disaster.[40][41] The culture was found to be alive on April 28, 2003.[42] The worms were part of a biological research in canisters experiment designed to study the effect of weightlessness on physiology; the experiment was conducted by Cassie Conley, NASA's planetary protection officer.


Debris Search Pilot Jules F. Mier Jr. and Debris Search Aviation Specialist Charles Krenek died in a helicopter crash that injured three others during the search.[43]


Some Texas residents recovered some of the debris, ignoring the warnings, and attempted to sell it on the online auction site eBay, starting at $10,000. The auction was quickly removed, but prices for Columbia merchandise such as programs, photographs and patches, went up dramatically following the disaster, creating a surge of Columbia-related listings.[44] A three-day amnesty offered for "looted" shuttle debris brought in hundreds of illegally recovered pieces.[45] About 40,000 recovered pieces of debris have never been identified. The largest pieces recovered include the front landing gear[46] and a window frame.[47]




The glow of reentry as seen out of the front windows


On May 9, 2008, it was reported that data from a disk drive on board Columbia had survived the shuttle accident, and while part of the 340 MB drive was damaged, 99% of the data was recovered.[48] The drive was used to store data from an experiment on the properties of shear thinning.[49]


On July 29, 2011, Nacogdoches authorities told NASA that a four-foot-diameter (1.2 m) piece of debris had been found in a lake. NASA identified the piece as a power reactant storage and distribution tank.[50]


All recovered non-human Columbia debris is stored in unused office space at the Vehicle Assembly Building, except for parts of the crew compartment, which are kept separate.[51]



Crew cabin video




File:STS-107, final moments in cabin (Space Shuttle Columbia disaster).webmPlay media

Video taken by the crew of part of re-entry


Among the recovered items was a videotape recording made by the astronauts during the start of re-entry. The 13-minute recording shows the flight crew astronauts conducting routine re-entry procedures and joking with each other. None gives any indication of a problem. In the video, the flight-deck crew puts on their gloves and passes the video camera around to record plasma and flames visible outside the windows of the orbiter (a normal occurrence). The recording, which on normal flights would have continued through landing, ends about four minutes before the shuttle began to disintegrate and 11 minutes before Mission Control lost the signal from the orbiter.[52]



Investigation



Initial investigation




Mock-up of a Space Shuttle leading edge made with an RCC-panel taken from Atlantis. Simulation of known and possible conditions of the foam impact on Columbia's final launch showed brittle fracture of RCC.


NASA Space Shuttle Program Manager Ron Dittemore reported that "The first indication was loss of temperature sensors and hydraulic systems on the left wing. They were followed seconds and minutes later by several other problems, including loss of tire pressure indications on the left main gear and then indications of excessive structural heating".[53] Analysis of 31 seconds of telemetry data which had initially been filtered out because of data corruption within it showed the shuttle fighting to maintain its orientation, eventually using maximum thrust from its Reaction Control System jets.


The investigation focused on the foam strike from the very beginning. Incidents of debris strikes from ice and foam causing damage during take-off were already well known, and had damaged orbiters, most noticeably during STS-45, STS-27, and STS-87.[54] After the loss of Columbia, NASA concluded that mistakes during installation were the likely cause of foam loss, and retrained employees at Michoud Assembly Facility in Louisiana to apply foam without defects.[14] Tile damage had also been traced to ablating insulating material from the cryogenic fuel tank in the past.



Columbia Accident Investigation Board


Following protocols established after the loss of Challenger, an independent investigating board was created immediately after the accident. The Columbia Accident Investigation Board, or CAIB, was chaired by retired U.S. Navy Admiral Harold W. Gehman, Jr.,[55] and consisted of expert military and civilian analysts who investigated the accident in detail.


Columbia's flight data recorder was found near Hemphill, Texas, on March 19, 2003.[56] Unlike commercial jet aircraft, the space shuttles did not have flight data recorders intended for after-crash analysis. Instead, the vehicle data were transmitted in real time to the ground via telemetry. Since Columbia was the first shuttle, it had a special flight data OEX (Orbiter EXperiments) recorder, designed to help engineers better understand vehicle performance during the first test flights. After the initial Shuttle test-flights were completed, the recorder was never removed from Columbia, and it was still functioning on the crashed flight. It recorded many hundreds of parameters, and contained very extensive logs of structural and other data, which allowed the CAIB to reconstruct many of the events during the process leading to breakup.[57] Investigators could often use the loss of signals from sensors on the wing to track how the damage progressed.[58] This was correlated with forensic debris analysis conducted at Lehigh University and other tests to obtain a final conclusion about the probable course of events.[59]


Beginning on May 30, 2003, foam impact tests were performed by Southwest Research Institute. They used a compressed air gun to fire a foam block of similar size and mass to that which struck Columbia, at the same estimated speed. To represent the leading edge of Columbia's left wing, RCC panels from NASA stock, along with the actual leading-edge panels from Enterprise , which were fiberglass, were mounted to a simulating structural metal frame. At the beginning of testing, the likely impact site was estimated to be between RCC panel 6 and 9, inclusive. Over many days, dozens of the foam blocks were shot at the wing leading edge model at various angles. These produced only cracks or surface damage to the RCC panels.


During June, further analysis of information from Columbia's flight data recorder narrowed the probable impact site to one single panel: RCC wing panel 8. On July 7, in a final round of testing, a block fired at the side of an RCC panel 8 created a hole 16 by 16.7 inches (41 by 42 cm) in that protective RCC panel.[60] The tests demonstrated that a foam impact of the type Columbia sustained could seriously breach the thermal protection system on the wing leading edge.[61]



Conclusions


On August 26, 2003, the CAIB issued its report on the accident. The report confirmed the immediate cause of the accident was a breach in the leading edge of the left wing, caused by insulating foam shed during launch. The report also delved deeply into the underlying organizational and cultural issues that led to the accident. The report was highly critical of NASA's decision-making and risk-assessment processes. It concluded the organizational structure and processes were sufficiently flawed and that a compromise of safety was expected no matter who was in the key decision-making positions. An example was the position of Shuttle Program Manager, where one individual was responsible for achieving safe, timely launches and acceptable costs, which are often conflicting goals. The CAIB report found that NASA had accepted deviations from design criteria as normal when they happened on several flights and did not lead to mission-compromising consequences. One of those was the conflict between a design specification stating that the thermal protection system was not designed to withstand significant impacts and the common occurrence of impact damage to it during flight. The board made recommendations for significant changes in processes and organizational culture.


On December 30, 2008, NASA released a further report, entitled Columbia Crew Survival Investigation Report, produced by a second commission, the Spacecraft Crew Survival Integrated Investigation Team (SCSIIT). NASA had commissioned this group, "to perform a comprehensive analysis of the accident, focusing on factors and events affecting crew survival, and to develop recommendations for improving crew survival for all future human space flight vehicles."[62] The report concluded that: "The Columbia depressurization event occurred so rapidly that the crew members were incapacitated within seconds, before they could configure the suit for full protection from loss of cabin pressure. Although circulatory systems functioned for a brief time, the effects of the depressurization were severe enough that the crew could not have regained consciousness. This event was lethal to the crew."


The report also concluded:



  • The crew did not have time to prepare themselves. Some crew members were not wearing their safety gloves, and one crew member was not wearing a helmet. New policies gave the crew more time to prepare for descent.

  • The crew's safety harnesses malfunctioned during the violent descent. The harnesses on the three remaining shuttles were upgraded after the accident.


The key recommendations of the report included that future spacecraft crew survival systems should not rely on manual activation to protect the crew.[63]



Other contributing factors


Unintended consequences of decisions contributed to the failure: the original tank white paint was removed to save 600 lb (270 kg), exposing the rust-orange-colored foam; the tank foam chemical composition was altered to meet Environmental Protection Agency requirements, weakening it; upgrades to the leading edge proposed in the early 1990s were not funded because NASA was working on the later-cancelled VentureStar single-stage-to-orbit shuttle replacement.[64]



Possible emergency procedures


One question of special importance was whether NASA could have saved the astronauts had they known of the danger.[65] This would have to involve either rescue or repair – docking at the International Space Station for use as a haven while awaiting rescue (or to use the Soyuz to systematically ferry the crew to safety) would have been impossible due to the different orbital inclination of the vehicles.


The CAIB determined that a rescue mission, though risky, might have been possible provided NASA management had taken action soon enough.[66][67] Normally, a rescue mission is not possible, due to the time required to prepare a shuttle for launch, and the limited consumables (power, water, air) of an orbiting shuttle. Atlantis was well along in processing for a planned March 1 launch on STS-114, and Columbia carried an unusually large quantity of consumables due to an Extended Duration Orbiter package. The CAIB determined that this would have allowed Columbia to stay in orbit until flight day 30 (February 15). NASA investigators determined that Atlantis processing could have been expedited with no skipped safety checks for a February 10 launch. Hence, if nothing went wrong, there was a five-day overlap for a possible rescue. As mission control could deorbit an empty shuttle, but could not control the orbiter's reentry and landing, it would likely have sent Columbia into the Pacific Ocean;[67] NASA later developed the Remote Control Orbiter system to permit mission control to land a shuttle.


NASA investigators determined that on-orbit repair by the shuttle astronauts was possible but overall considered "high risk", primarily due to the uncertain resiliency of the repair using available materials and the anticipated high risk of doing additional damage to the Orbiter.[66][67]Columbia did not carry the Canadarm, or Remote Manipulator System, which would normally be used for camera inspection or transporting a spacewalking astronaut to the wing. Therefore, an unusual emergency extra-vehicular activity (EVA) would have been required. While there was no astronaut EVA training for maneuvering to the wing, astronauts are always prepared for a similarly difficult emergency EVA to close the external tank umbilical doors located on the orbiter underside, which is necessary for reentry. Similar methods could have reached the shuttle left wing for inspection or repair.[67]


For the repair, the CAIB determined that the astronauts would have to use tools and small pieces of titanium, or other metal, scavenged from the crew cabin. These metals would help protect the wing structure and would be held in place during re-entry by a water-filled bag that had turned into ice in the cold of space. The ice and metal would help restore wing leading edge geometry, preventing a turbulent airflow over the wing and therefore keeping heating and burn-through levels low enough for the crew to survive re-entry and bail out before landing. The CAIB could not determine whether a patched-up left wing would have survived even a modified re-entry, and concluded that the rescue option would have had a considerably higher chance of bringing Columbia's crew back alive.[66][67]



Memorials





Columbia's window frames on display as part of the "Forever Remembered" installation at Kennedy Space Center Visitor Complex in 2018


On February 4, 2003, President George W. Bush and his wife Laura led a memorial service for the astronauts' families at the Lyndon B. Johnson Space Center. Two days later, Vice President Dick Cheney and his wife Lynne led a similar service at Washington National Cathedral. Patti LaBelle sang "Way Up There" as part of the service.[68]




A makeshift memorial at the main entrance to the Lyndon B. Johnson Space Center in Houston, Texas





Columbia Memorial in Arlington National Cemetery





Columbia memorial on Mars Exploration Rover Spirit




Space Shuttle Columbia memorial – Sabine County, Texas


On February 2, 2003, and throughout March, April, and May 2003, large memorial Catholic Brazilian masses and Roman Catholic memorial concerts were held in Rio de Janeiro, Sao Paulo, and other cities in Brazil where Brazilian Catholic priest Marcelo Rossi and his concert partner Belo sang a Christian hymn "Noites Traicoeiras" (Treacherous Nights) as tribute to the seven Columbia astronauts, as well as the other seven crew members who lost their lives in the Space Shuttle Challenger disaster in 1986. The concerts were televised to millions throughout Brazil and the world.


On March 26, the United States House of Representatives' Science Committee approved funds for the construction of a memorial at Arlington National Cemetery for the STS-107 crew. A similar memorial was built at the cemetery for the last crew of Challenger. On October 28, 2003, the names of the astronauts were added to the Space Mirror Memorial at the Kennedy Space Center Visitor Complex in Merritt Island, Florida, alongside the names of several astronauts and cosmonauts who have died in the line of duty.


On April 1, 2003, the Opening Day of baseball season, the Houston Astros (named in honor of the U.S. space program) honored the Columbia crew by having seven simultaneous first pitches thrown by family and friends of the crew. For the National Anthem, 107 NASA personnel, including flight controllers and others involved in Columbia's final mission, carried a U.S. flag onto the field. In addition, the Astros wore the mission patch on their sleeves and replaced all dugout advertising with the mission patch logo for the entire season.[69]


On February 1, 2004, the first anniversary of the Columbia disaster, Super Bowl XXXVIII held in Houston's Reliant Stadium began with a pregame tribute to the crew of the Columbia by singer Josh Groban performing "You Raise Me Up", with the crew of STS-114, the first post-Columbia Space Shuttle mission, in attendance.[70][71]


In 2004, Bush conferred posthumous Congressional Space Medals of Honor to all 14 crew members lost in the Challenger and Columbia accidents.[72]


NASA named several places in honor of Columbia and the crew. Seven asteroids discovered in July 2001 at the Mount Palomar observatory were officially given the names of the seven astronauts: 51823 Rickhusband, 51824 Mikeanderson, 51825 Davidbrown, 51826 Kalpanachawla, 51827 Laurelclark, 51828 Ilanramon, 51829 Williemccool.[73] On Mars, the landing site of the rover Spirit was named Columbia Memorial Station, and included a memorial plaque to the Columbia crew mounted on the back of the high gain antenna. A complex of seven hills east of the Spirit landing site was dubbed the Columbia Hills; each of the seven hills was individually named for a member of the crew, and Husband Hill in particular was ascended and explored by the rover. In 2006, the IAU approved naming of a cluster of seven small craters in the Apollo basin on the far side of the Moon after the astronauts.[74] Back on Earth, NASA's National Scientific Balloon Facility was renamed the Columbia Scientific Balloon Facility.


Other tributes included the decision by Amarillo, Texas, to rename its airport Rick Husband Amarillo International Airport after the Amarillo native. Washington State Route 904 was renamed Lt. Michael P. Anderson Memorial Highway, as it runs through Cheney, Washington, the town where he graduated from high school. A newly constructed elementary school located on Fairchild Air Force Base near Spokane, Washington, was named Michael Anderson Elementary School. Anderson had attended fifth grade at Blair Elementary, the base's previous elementary school, while his father was stationed there. A mountain peak near Kit Carson Peak and Challenger Point in the Sangre de Cristo Range was renamed Columbia Point, and a dedication plaque was placed on the point in August 2003. Seven dormitories were named in honor of Columbia crew members at the Florida Institute of Technology, Creighton University, The University of Texas at Arlington, and the Columbia Elementary School in the Brevard County School District. The Huntsville City Schools in Huntsville, Alabama, a city strongly associated with NASA, named their most recent high school Columbia High School as a memorial to the crew. A Department of Defense school in Guam was renamed Commander William C. McCool Elementary School.[75] The City of Palmdale, California, the birthplace of the entire shuttle fleet, changed the name of the thoroughfare Avenue M to Columbia Way. In Avondale, Arizona, the Avondale Elementary School where Michael Anderson's sister worked had sent a T-shirt with him into space. It was supposed to have an assembly when he returned from space. The school was later renamed Michael Anderson Elementary.



The first dedicated meteorological satellite launched by the Indian Space Research Organisation (ISRO) on September 2, 2002, named Metsat-1, was later renamed Kalpana-1 by Indian Prime Minister Atal Bihari Vajpayee in memory of India-born Kalpana Chawla.


In October 2004, both houses of Congress passed a resolution authored by U.S. Representative Lucille Roybal-Allard and co-sponsored by the entire contingent of California representatives to Congress changing the name of Downey, California's Space Science Learning Center to the Columbia Memorial Space Science Learning Center. The facility is located at the former manufacturing site of the space shuttles, including Columbia and Challenger.[76]


The U.S. Air Force's Squadron Officer School at Maxwell Air Force Base, Alabama, renamed their auditorium in Husband's honor. He was a graduate of the program. The U.S. Test Pilot School at Edwards Air Force Base in California named its pilot lounge for Husband.


NASA named a supercomputer "Columbia" in the crew's honor in 2004. It was located at the NASA Advanced Supercomputing Division at Ames Research Center on Moffett Federal Airfield near Mountain View, California. The first part of the system, built in 2003, known as "Kalpana" was dedicated to Chawla, who worked at Ames prior to joining the Space Shuttle program.[77]


A U.S. Navy compound at a major coalition military base in Afghanistan is named Camp McCool. In addition, the athletic field at McCool's alma mater, Coronado High School in Lubbock, Texas, was renamed the Willie McCool Track and Field.


A proposed reservoir in Cherokee County in Eastern Texas is to be named Lake Columbia.[78]


Ilan Ramon High School was established in 2006 in Hod HaSharon, Israel, in tribute to the first Israeli astronaut.[79] The school's symbol shows the planet Earth with an aircraft orbiting around it.[80]


The National Naval Medical Center dedicated Laurel Clark Memorial Auditorium on July 11, 2003.[81]Gamma Phi Beta sorority, of which Clark was a member, created the Laurel Clark Foundation in her honor.[82] A fountain in downtown Racine, Wisconsin, which Clark considered her hometown, was named for her.[83]


PS 58 in Staten Island, New York, was named Space Shuttle Columbia School in honor of the failed mission.[84]


The Challenger Columbia Stadium in League City, Texas is named in honor of the victims of both the Columbia disaster as well as the Challenger disaster in 1986.


A tree for each astronaut was planted in NASA's Astronaut Memorial Grove at the Johnson Space Center in Houston, Texas, not far from the Saturn V building, along with trees for each astronaut from the Apollo 1 and Challenger disasters.[85] Tours of the space center pause briefly near the grove for a moment of silence, and the trees can be seen from nearby NASA Road 1.


Columbia Colles, a range of hills on Pluto discovered by the New Horizons spacecraft in July 2015, was named in honor of the victims of the disaster.[86]


A starship on Star Trek: Enterprise was named NX-02 Columbia in honor of the Columbia.


A photo tribute commemorating the Columbia and its crew is displayed in the "Wings of Fame" section of the queue for Soarin' Around the World at Disney California Adventure park alongside many other famous air and space craft.[87]



Effect on space programs


Following the loss of Columbia, the space shuttle program was suspended.[58] The further construction of the International Space Station (ISS) was also delayed, as the space shuttles were the only available delivery vehicle for station modules. The station was supplied using Russian unmanned Progress ships, and crews were exchanged using Russian-manned Soyuz spacecraft, and forced to operate on a skeleton crew of two.[88][89]


Less than a year after the accident, President Bush announced the Vision for Space Exploration, calling for the space shuttle fleet to complete the ISS, with retirement by 2010 following the completion of the ISS, to be replaced by a newly developed Crew Exploration Vehicle for travel to the Moon and Mars.[90] NASA planned to return the space shuttle to service around September 2004; that date was pushed back to July 2005.


On July 26, 2005, at 10:39 EST, Space Shuttle Discovery cleared the tower on the "Return to Flight" mission STS-114, marking the shuttle's return to space. Overall the STS-114 flight was highly successful, but a similar piece of foam from a different portion of the tank was shed, although the debris did not strike the Orbiter. Due to this, NASA once again grounded the shuttles until the remaining problem was understood and a solution implemented.[58] After delaying their re-entry by two days due to adverse weather conditions, Commander Eileen Collins and Pilot James M. Kelly returned Discovery safely to Earth on August 9, 2005. Later that same month, the external tank construction site at Michoud was damaged by Hurricane Katrina.[91] At the time, there was concern that this would set back further shuttle flights by at least two months and possibly more.


The actual cause of the foam loss on both Columbia and Discovery was not determined until December 2005, when x-ray photographs of another tank showed that thermal expansion and contraction during filling, not human error, caused cracks that led to foam loss. NASA's Hale formally apologized to the Michoud workers who had been blamed for the loss of Columbia for almost three years.[14]


The second "Return to Flight" mission, STS-121, launched on July 4, 2006, at 14:37:55 (EDT), after two previous launch attempts were scrubbed because of lingering thunderstorms and high winds around the launch pad. The launch took place despite objections from its chief engineer and safety head. This mission increased the ISS crew to three. A 5-inch (130 mm) crack in the foam insulation of the external tank gave cause for concern, but the Mission Management Team gave the go for launch.[92] Space Shuttle Discovery touched down successfully on July 17, 2006, at 09:14:43 (EDT) on Runway 15 at the Kennedy Space Center.


On August 13, 2006, NASA announced that STS-121 had shed more foam than they had expected. While this did not delay the launch for the next mission—STS-115, originally set to lift off on August 27 [93]—the weather and other technical glitches did, with a lightning strike, Hurricane Ernesto and a faulty fuel tank sensor combining to delay the launch until September 9. On September 19, landing was delayed an extra day to examine Atlantis after objects were found floating near the shuttle in the same orbit. When no damage was detected, Atlantis landed successfully on September 21.


The Columbia Crew Survival Investigation Report released by NASA on December 30, 2008, made further recommendations to improve a crew's survival chances on future space vehicles, such as the then planned Orion spacecraft. These included improvements in crew restraints, finding ways to deal more effectively with catastrophic cabin depressurization, more "graceful degradation" of vehicles during a disaster so that crews will have a better chance at survival, and automated parachute systems.[62]



Sociocultural aftermath



Fears of terrorism


After the shuttle's breakup, there were some initial fears that terrorists might have been involved, but no evidence of that has ever surfaced.[94] Security surrounding the launch and landing of the space shuttle had been increased because the crew included the first Israeli astronaut.[95] The Merritt Island launch facility, like all sensitive government areas, had increased security after the September 11 attacks.



Purple streak image


The San Francisco Chronicle reported that an amateur astronomer had taken a five-second exposure that appeared to show "a purplish line near the shuttle", resembling lightning, during re-entry.[96] The CAIB report concluded that the image was the result of "camera vibrations during a long-exposure".[97]



2003 Armageddon film hoax


In response to the disaster, FX canceled its scheduled airing two nights later of the 1998 film Armageddon, in which the Space Shuttle Atlantis is depicted as being destroyed by asteroid fragments.[98] In a hoax inspired by the destruction of Columbia, some images that were purported to be satellite photographs of the Shuttle's "explosion" turned out to be screen captures from the Space Shuttle destruction scene of Armageddon.[99]



Music


The 2003 album Bananas by Deep Purple includes "Contact Lost", an instrumental piece written by guitarist Steve Morse in remembrance of the loss. Morse is donating his songwriting royalties to the families of the astronauts.[100]


Catherine Faber and Callie Hills (the folk group known as Echo's Children) included a memorial song titled "Columbia" on their 2004 album From the Hazel Tree.[101]


The 2005 album Ultimatum by The Long Winters contains the song "The Commander Thinks Aloud", which was songwriter/singer John Roderick's musing on the crew's perspective of the unexpected catastrophe.[102] In addition, the January 30, 2015 episode of Hrishikesh Hirway's Song Exploder podcast presented an interview with John Roderick about the songwriting and recording process for "The Commander Thinks Aloud".[103]


The Hungarian composer Peter Eötvös wrote a piece named Seven for solo violin and orchestra in 2006 in memory of the crew of Columbia. Seven was premiered in 2007 by violinist Akiko Suwanai, conducted by Pierre Boulez, and it was recorded in 2012 with violinist Patricia Kopatchinskaja and the composer conducting.[104]


The 2008 album Columbia: We Dare to Dream by Anne Cabrera was written as a tribute to Space Shuttle Columbia STS-107, the crew, support teams, recovery teams, and the crew's families.[105] A copy of the album on compact disc was flown aboard Space Shuttle Discovery mission STS-131 to the International Space Station by astronaut Clayton Anderson in April 2010.[106]


The Scottish Folk-Rock band Runrig included a song titled "Somewhere" on their album The Story (2016); the song was dedicated to Laurel Clark (who had become a fan of the band during her Navy service in Scotland), and includes a piece of her wake up song, followed by some radio chatter, at the end.[107]



See also



  • Apollo 1

  • Space Shuttle Challenger disaster

  • Criticism of the Space Shuttle program

  • Engineering disasters

  • Expedition 6

  • Columbia Point



Notes





  1. ^ A timeline beginning at 8:10.39 and ending at 09:00.53 is available as part of NASA's post-disaster investigation.[24]


  2. ^ A chronology of STS-107 is available as part of NASA's post-disaster investigation.[25]




References





  1. ^ Columbia Accident Investigation Board (August 2003). "6.1 A History of Foam Anomalies (page 121)" (PDF). Archived (PDF) from the original on July 29, 2014. Retrieved June 26, 2014..mw-parser-output cite.citation{font-style:inherit}.mw-parser-output .citation q{quotes:"""""""'""'"}.mw-parser-output .citation .cs1-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .citation .cs1-lock-limited a,.mw-parser-output .citation .cs1-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .citation .cs1-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration{color:#555}.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration span{border-bottom:1px dotted;cursor:help}.mw-parser-output .cs1-ws-icon a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/4/4c/Wikisource-logo.svg/12px-Wikisource-logo.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output code.cs1-code{color:inherit;background:inherit;border:inherit;padding:inherit}.mw-parser-output .cs1-hidden-error{display:none;font-size:100%}.mw-parser-output .cs1-visible-error{font-size:100%}.mw-parser-output .cs1-maint{display:none;color:#33aa33;margin-left:0.3em}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-format{font-size:95%}.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-right{padding-right:0.2em}


  2. ^ "Spaceflight Now | STS-119 Shuttle Report | Legendary commander tells story of shuttle's close call". spaceflightnow.com. Archived from the original on March 3, 2017. Retrieved March 31, 2017.


  3. ^ Marcia Dunn (February 2, 2003). "Columbia's problems began on left wing". Associated Press via staugustine.com. Archived from the original on November 2, 2013.


  4. ^ "Molten Aluminum found on Columbia's thermal tiles". USA Today. Associated Press. March 4, 2003. Archived from the original on February 24, 2011. Retrieved August 13, 2007.


  5. ^ ab Columbia Accident Investigation Board (August 2003). "2.1 Mission Objectives and Their Rationales (page 28)" (PDF). Archived from the original (PDF) on June 30, 2006. Retrieved January 28, 2011.


  6. ^ Century of Flight. "The Columbia space shuttle accident". Archived from the original on September 26, 2007. Retrieved August 13, 2007.


  7. ^ Columbia Accident Investigation Board (August 2003). "6.1 A History of Foam Anomalies (PDF)" (PDF). Archived (PDF) from the original on August 6, 2011. Retrieved February 26, 2013.


  8. ^ Armando Oliu; KSC Debris Team (October 10, 2002). "STS-112 SRB POST FLIGHT/RETRIEVAL ASSESSMENT" (PDF). Archived from the original (PDF) on July 19, 2012. Retrieved August 6, 2011.


  9. ^ Jerry Smelser (October 31, 2002). "STS-112/ET-115 Bipod Ramp Foam Loss, Page 4" (PDF). Archived (PDF) from the original on April 16, 2011. Retrieved August 5, 2011.


  10. ^ Cabbage, Michael & Harwood, William (2004). Comm Check. Free Press. p. 94. ISBN 0-7432-6091-0.


  11. ^ Gehman; et al. (2003). "Columbia Accident Investigation Board, Chapter 6, "A History of Foam Anomalies", pages 125 & 148" (PDF). Archived (PDF) from the original on August 6, 2011. Retrieved August 5, 2011.


  12. ^ Columbia Accident Investigation Board (2003). "CAIB page 153 (PDF)" (PDF). Archived from the original (PDF) on May 16, 2011. Retrieved December 17, 2010.


  13. ^ Columbia Accident Investigation Board (2003). "CAIB Recommendation R6.3-2 (PDF)" (PDF). Archived from the original (PDF) on February 19, 2006. Retrieved January 30, 2006.


  14. ^ abc Hale, Wayne (April 18, 2012). "How We Nearly Lost Discovery". waynehale.wordpress.com. Archived from the original on April 20, 2012. Retrieved April 18, 2012.


  15. ^ Columbia Accident Investigation Board, (2003) Volume 1, Chapter 6, p. 138. CAIB Report Volume 1 Part 2 Archived October 6, 2016, at the Wayback Machine(pdf). Retrieved June 8, 2006.


  16. ^ Hale, Wayne (2013-01-13). "After Ten Years: Working on the Wrong Problem". Wayne Hale's Blog. Archived from the original on 2017-05-30. Retrieved January 14, 2013.


  17. ^ Bolden, Charles F. (January 6, 2004). "Charles F. Bolden". NASA Johnson Space Center Oral History Project (Interview). Interviewed by Johnson, Sandra; Wright, Rebecca; Ross-Nazzal, Jennifer. Houston, Texas. Archived from the original on January 7, 2014. Retrieved January 6, 2014.


  18. ^ "nasa-global.speedera.net" (PDF). Archived (PDF) from the original on April 12, 2011. Retrieved July 27, 2007.


  19. ^ "Email told fatal shuttle it was safe". AP/Guardian.co.uk. July 1, 2003. Archived from the original on August 27, 2013. Retrieved March 26, 2013.


  20. ^ "Publicly released email exchange between Columbia and mission control". nasa.gov. Archived from the original on December 23, 2016. Retrieved May 8, 2018.


  21. ^ William Harwood (June 30, 2003). "Foam strike email to shuttle commander released". CBS News/spaceflightnow.com. Archived from the original on March 11, 2013. Retrieved March 26, 2013.


  22. ^ Yaffa, Joshua. "The Information Sage". Washington Monthly. Archived from the original on May 15, 2011.


  23. ^ "Edward Tufte forum: PowerPoint Does Rocket Science – and Better Techniques for Technical Reports". www.edwardtufte.com. Archived from the original on August 16, 2016. Retrieved August 11, 2016.


  24. ^ "NASA Columbia Master Timeline". NASA. March 10, 2003. Archived from the original on December 25, 2017. Retrieved February 27, 2018.


  25. ^ Troxell, Jennifer. "Columbia Chronology". NASA. Archived from the original on December 25, 2017. Retrieved February 27, 2018.


  26. ^ ab Columbia Accident Investigation Board (2008). "Columbia Crew Survival Investigation Report" (PDF). Archived (PDF) from the original on April 7, 2016.


  27. ^ "Columbia Crew Survival Investigation Report" (PDF). NASA.gov. 2008. pp. 2–90. Archived (PDF) from the original on April 7, 2016. The 51-L Challenger accident investigation showed that the Challenger CM remained intact and the crew was able to take some immediate actions after vehicle breakup, although the loads experienced were much higher as a result of the aerodynamic loads (estimated at 16 G to 21 G).5 The Challenger crew became incapacitated quickly and could not complete activation of all breathing air systems, leading to the conclusion that an incapacitating cabin depressurization occurred. By comparison, the Columbia crew experienced lower loads (~3.5 G) at the CE. The fact that none of the crew members lowered their visors strongly suggests that the crew was incapacitated after the CE by a rapid depressurization. Although no quantitative conclusion can be made regarding the cabin depressurization rate, it is probable that the cabin depressurization rate was high enough to incapacitate the crew in a matter of seconds. Conclusion L1-5. The depressurization incapacitated the crew members so rapidly that they were not able to lower their helmet visors.


  28. ^ Columbia Accident Investigation Board (2003). "Report of Columbia Accident Investigation Board, Volume I". Archived from the original on July 30, 2012. Retrieved January 4, 2006.


  29. ^ abcd "Columbia Crew Survival Investigation Report" (PDF).


  30. ^ abcdefgh Stepaniak, Philip C.; Lane, Helen W.; Davis, Jeffrey R. (May 2014). Loss of Signal: Aeromedical Lessons Learned from the STS-107 Columbia Space Shuttle Mishap (PDF). Washington, DC: National Aeronautics and Space Administration. Retrieved 22 February 2019.


  31. ^ Harnden, Toby (February 3, 2003). "Searchers stumble on human remains". Telegraph.co.uk. Archived from the original on September 8, 2017. Retrieved September 5, 2017.


  32. ^ "Archived copy" (PDF). Archived (PDF) from the original on April 7, 2016. Retrieved December 6, 2016.CS1 maint: Archived copy as title (link)


  33. ^ Bush, George W. (2003). "President Addresses Nation on Space Shuttle Columbia Tragedy". The White House. Archived from the original on February 11, 2014. Retrieved January 4, 2006.


  34. ^ Introduction to Emergency Management, Fourth Edition, Butterworth-Heinemann, Burlington, 2010, p. 166.


  35. ^ ab Columbia Accident Investigation Board, (2003) Volume 1, Chapter 2, p. 41.


  36. ^ Harnden, Toby (February 3, 2003). "Searchers stumble on human remains". The Daily Telegraph. London. Archived from the original on September 11, 2017.


  37. ^ "In Search Of..." Archived from the original on March 20, 2009. Retrieved February 9, 2009.


  38. ^ Ramasamy Venugopal. "The Space Shuttle Columbia Disaster". Space Safety Magazine. Archived from the original on February 4, 2015. Retrieved January 28, 2015.


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 This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.



External links












  • Orbiter Wing Leading Edge Protection (upgrade proposed for 1999, but cancelled)

  • NASA's Space Shuttle Columbia and her crew

  • NASA STS-107 Crew Memorial web page


  • Columbia Crew Survival Investigation Report PDF

  • Doppler radar animation of the debris after break up


  • President Bush's remarks at memorial service – February 4, 2003

  • The CBS News Space Reporter's Handbook STS-51L/107 Supplement

  • The 13-min. Crew cabin video (subtitled). Ends 4-min. before the shuttle began to disintegrate.

  • photos of recovered debris stored on the 16th floor of the Vehicle Assembly Building at KSC






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