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Rogers Commission Report

Front page of the Commission Report to Congress

The Rogers Commission Report was created by a Presidential Commission charged with investigating the Space Shuttle Challenger disaster during its 10th mission, STS-51-L. The report, released and submitted to President Ronald Reagan on 9 June 1986, both determined the cause of the disaster that took place 73 seconds after liftoff, and urged NASA to improve and install new safety features on the shuttles and in its organizational handling of future missions.


  • Commission members 1
  • Findings 2
    • "An accident rooted in history" 2.1
    • Flawed launch decision 2.2
    • Role of Richard Feynman 2.3
  • Result 3
  • See also 4
  • References 5
  • External links 6

Commission members

Members of the Rogers Commission arrive at Kennedy Space Center.


The Space Shuttle solid rocket booster field joint assembly (from the Rogers Commission report

The commission found that the Challenger accident was caused by a failure in the O-rings sealing the aft field joint on the right solid rocket booster, causing pressurized hot gases and eventually flame to "blow by" the O-ring and make contact with the adjacent external tank, causing structural failure. The failure of the O-rings was attributed to a design flaw, as their performance could be too easily compromised by factors including the low temperature on the day of launch.[1]

"An accident rooted in history"

More broadly, the report also determined the contributing causes of the accident. Most salient was the failure of both NASA and its contractor, Morton Thiokol, to respond adequately to the design flaw. The Commission found that as early as 1977, NASA managers had not only known about the flawed O-ring, but that it had the potential for catastrophe. This led the Rogers Commission to conclude that the Challenger disaster was "an accident rooted in history."[2]

Flawed launch decision

The report also strongly criticized the decision making process that led to the launch of Challenger, saying that it was seriously flawed. The report found evidence that NASA managers did not know of Thiokol's initial concerns about the effects of the cold on the O-rings, and did not understand that Rockwell viewed the large amount of ice present on the pad as a constraint to launch.[3] It concluded that:

…failures in communication… resulted in a decision to launch 51-L based on incomplete and sometimes misleading information, a conflict between engineering data and management judgments, and a NASA management structure that permitted internal flight safety problems to bypass key Shuttle managers.[3]

Role of Richard Feynman

One of the commission's best-known members was theoretical physicist Richard Feynman. His style of investigating with his own direct methods rather than following the commission schedule put him at odds with Rogers, who once commented, "Feynman is becoming a real pain." During a televised hearing, Feynman famously demonstrated how the O-rings became less resilient and subject to seal failures at ice-cold temperatures by immersing a sample of the material in a glass of ice water.[4] Feynman's own investigation reveals a disconnect between NASA's engineers and executives that was far more striking than he expected. His interviews of NASA's high-ranking managers revealed startling misunderstandings of elementary concepts. One such concept was the determination of a safety factor.[5]

In one example, early tests resulted in some of the booster rocket's O-rings burning a third of the way through. These O-rings provided the gas-tight seal needed between the vertically stacked cylindrical sections that made up the solid fuel booster. NASA managers recorded this result as demonstrating that the O-rings had a "safety factor" of 3. Feynman incredulously explains the magnitude of this error: a "safety factor" refers to the practice of building an object to be capable of withstanding more force than the force to which it will conceivably be subjected. To paraphrase Feynman's example, if engineers built a bridge that could bear 3,000 pounds without any damage, even though it was never expected to bear more than 1,000 pounds in practice, the safety factor would be 3. If a 1,000 pound truck drove across the bridge and it cracked at all, even just a third of the way through a beam, the safety factor is now zero: the bridge is defective.[5]

Feynman was clearly disturbed by the fact that NASA management not only misunderstood this concept, but inverted it by using a term denoting an extra level of safety to describe a part that was actually defective and unsafe. Feynman continued to investigate the lack of communication between NASA's management and its engineers, and was struck by management's claim that the risk of catastrophic malfunction on the shuttle was 1 in 105; i.e., 1 in 100,000. Feynman immediately realized that this claim was risible on its face; as he described, this assessment of risk would entail that NASA could expect to launch a shuttle every day for the next 274 years while suffering, on average, only one accident. Investigating the claim further, Feynman discovered that the 1 in 105 figure was stating what they claimed that the failure rate ought to be, given that it was a manned vehicle, and working backwards to generate the failure rate of components.[5]

Feynman was disturbed by two aspects of this practice. First, NASA management assigned a probability of failure to each individual bolt, sometimes claiming a probability of 1 in 108; that is, one in one hundred million. Feynman pointed out that it is impossible to calculate such a remote possibility with any scientific rigor. Secondly, Feynman was bothered not just by this sloppy science but by the fact that NASA claimed that the risk of catastrophic failure was "necessarily" 1 in 105. As the figure itself was beyond belief, Feynman questioned exactly what "necessarily" meant in this context—did it mean that the figure followed logically from other calculations, or did it reflect NASA management's desire to make the numbers fit?[5]

Feynman suspected that the 1/100,000 figure was wildly fantastical, and made a rough estimate that the true likelihood of shuttle disaster was closer to 1 in 100. He then decided to poll the engineers themselves, asking them to write down an anonymous estimate of the odds of shuttle explosion. Feynman found that the bulk of the engineers' estimates fell between 1 in 50 and 1 in 200. Not only did this confirm that NASA management had clearly failed to communicate with their own engineers, but the disparity engaged Feynman's emotions. When describing these wildly differing estimates, Feynman briefly lapses from his damaging but dispassionate detailing of NASA's flaws to recognize the moral failing that resulted from a scientific failing: he was clearly upset that NASA presented its clearly fantastical figures as fact to convince a member of the public, schoolteacher Christa McAuliffe, to join the crew. Feynman was not uncomfortable with the concept of a 1/100 risk factor, but felt strongly that the recruitment of laypeople required an honest portrayal of the true risk involved.[5]

Feynman's investigation eventually suggested to him that the cause of the Challenger disaster was the very part to which NASA management so mistakenly assigned a safety factor. The O-rings were rubber rings designed to form a seal in the shuttle's solid rocket boosters, preventing the rockets' hot gas from escaping and damaging other parts of the vehicle. Feynman suspected that despite NASA's claims, the O-rings were unsuitable at low temperatures and lost their resilience when cold, thus failing to maintain a tight seal when rocket pressure distorted the structure of the solid fuel booster. Feynman's suspicions were corroborated by General Kutyna, also on the commission, who cunningly[6] provided Feynman with a broad hint by asking about the effect of cold on O-ring seals after mentioning that the temperature on the day of the launch was far lower than had been the case with previous launches: below freezing at 28 to 29 °F (−2.2 to −1.7 °C); previously, the coldest launch had been at 53 °F (12 °C).

Feynman's investigations also revealed that there had been many serious doubts raised about the O-ring seals by engineers at Morton Thiokol, which made the solid fuel boosters, but communication failures had led to their concerns being ignored by NASA management. He found similar failures in procedure in many other areas at NASA, but singled out its software development for praise due to its rigorous and highly effective quality control procedures - then under threat from NASA management, which wished to reduce testing to save money given that the tests had always been passed.[7]

Based on his experiences with NASA's [5][8] In the appendix, he stated:

It appears that there are enormous differences of opinion as to the probability of a failure with loss of vehicle and of human life. The estimates range from roughly 1 in 100 to 1 in 100,000. The higher figures come from the working engineers, and the very low figures from management. What are the causes and consequences of this lack of agreement? Since 1 part in 100,000 would imply that one could put a Shuttle up each day for 300 years expecting to lose only one, we could properly ask "What is the cause of management's fantastic faith in the machinery? .. It would appear that, for whatever purpose, be it for internal or external consumption, the management of NASA exaggerates the reliability of its product, to the point of fantasy.[9]

"For a successful technology," Feynman concluded, "reality must take precedence over public relations, for nature cannot be fooled."[10]

Feynman later wrote about the investigation in his 1988 book What Do You Care What Other People Think?.[11] The second half of the book covers the investigation and the issues between science and politics.

Feynman later reported that, although he had believed he was making discoveries about the problems at NASA on his own, he eventually realized that NASA or contractor personnel, in an apparent effort to anonymously focus attention on these problem areas, had carefully led him to the evidence which would support the conclusions on which he would later report.[11][12]


The Rogers Commission offered nine recommendations on improving safety in the space shuttle program, and NASA was directed by President Reagan to report back within thirty days as to how it planned to implement those recommendations.[13] This is a summary of the chapter of Recommendations:[14]

  1. Design and Independent Oversight
  2. Shuttle Management Structure, Astronauts in Management and Shuttle Safety Panel
  3. Criticality Review and Hazard Analysis
  4. Safety Organization
  5. Improved Communications
  6. Landing Safety
  7. Launch Abort and Crew Escape
  8. Flight Rate
  9. Maintenance Safeguards

In response to the commission's recommendation, NASA initiated a total redesign of the space shuttle's solid rocket boosters, which was watched over by an independent oversight group as stipulated by the commission.[13] NASA's contract with Morton Thiokol, the contractor responsible for the solid rocket boosters, included a clause stating that in the event of a failure leading to "loss of life or mission," Thiokol would forfeit $10 million of its incentive fee and formally accept legal liability for the failure. After the Challenger accident, Thiokol agreed to "voluntarily accept" the monetary penalty in exchange for not being forced to accept liability.[15]

NASA also created a new Office of Safety, Reliability and Quality Assurance, headed as the commission had specified by a NASA associate administrator who reported directly to the NASA administrator. George Rodney, formerly of Martin Marietta, was appointed to this position.[16] Former Challenger flight director Jay Greene became chief of the Safety Division of the directorate.[17]

The unrealistically optimistic launch schedule pursued by NASA had been criticized by the Rogers Commission as a possible contributing cause to the accident. After the accident, NASA attempted to aim at a more realistic shuttle flight rate: it added another orbiter, Endeavour, to the space shuttle fleet to replace Challenger, and it worked with the Department of Defense to put more satellites in orbit using expendable launch vehicles rather than the shuttle.[18] In August 1986, President Reagan also announced that the shuttle would no longer carry commercial satellite payloads. After a 32-month hiatus, the next shuttle mission, STS-26, was launched on September 29, 1988.

Although changes were made by NASA after the Challenger accident, many commentators have argued that the changes in its management structure and organizational culture were neither deep nor long-lasting.

After the Space Shuttle Columbia disaster in 2003, attention once again focused on the attitude of NASA management towards safety issues. The Columbia Accident Investigation Board (CAIB) concluded that NASA had failed to learn many of the lessons of Challenger. In particular, the agency had not set up a truly independent office for safety oversight; the CAIB felt that in this area, "NASA's response to the Rogers Commission did not meet the Commission's intent".[19] The CAIB believed that "the causes of the institutional failure responsible for Challenger have not been fixed," saying that the same "flawed decision making process" that had resulted in the Challenger accident was responsible for Columbia's destruction seventeen years later.[20]

See also


  1. ^ Rogers Commission report (1986). Accident"Challenger"Report of the Presidential Commission on the Space Shuttle 1. p. 72. 
  2. ^ Rogers Commission report (1986). Accident"Challenger"Report of the Presidential Commission on the Space Shuttle 1. 
  3. ^ a b Rogers Commission report (1986). Accident"Challenger"Report of the Presidential Commission on the Space Shuttle 1. Retrieved 2007-01-01. 
  4. ^ a b Gleick, James (1988-02-17). "Richard Feynman Dead at 69; Leading Theoretical Physicist". New York Times. Retrieved 2007-01-28. 
  5. ^ a b c d e f "Report of the Presidential Commission on the Space Shuttle Challenger Accident". NASA. 1986-06-06.  Appendix F: Personal observations on the reliability of the Shuttle.
  6. ^ Feynman, Richard P. with Ralph Leighton, What Do You Care What Other People Think? Further Adventures of a Curious Character, W W Norton & Co (1988). ISBN 978-0-393-32092-3. "Afterthoughts".
  7. ^ Feynman, Richard P. with Ralph Leighton, What Do You Care What Other People Think? Further Adventures of a Curious Character, W W Norton & Co (1988). ISBN 978-0-393-32092-3. "An Inflamed Appendix".
  8. ^ Feynman, Richard P. with Ralph Leighton (1989). What Do You Care What Other People Think?. New York: Bantam Books. pp. 204 of 256 pages, paperback.  
  9. ^ "Appendix F of Rogers Commission report". 
  10. ^ Feynman, Richard P. (1986) Appendix F - Personal Observations on Reliability of Shuttle. NASA.
  11. ^ a b Feynman, Richard P. with Ralph Leighton, What Do You Care What Other People Think? Further Adventures of a Curious Character. W W Norton & Co Ltd (7-Dec-1988). ISBN 0-393-02659-0, ISBN 978-0-393-02659-7.
  12. ^ The Best Mind Since Einstein, BBC-TV & WGBH Boston (NOVA), 1993
  13. ^ a b "Report to the President: Actions to Implement the Recommendations of the Presidential Commission on the Space Shuttle Challenger Accident" (PDF). NASA. July 14, 1986. 
  14. ^ chapter of Recommendations
  15. ^ Rogers Commission report (1987). "Implementation of the Recommendations of the Presidential Commission on the Space Shuttle Challenger Accident, Recommendation IV". Retrieved 2011-07-12. 
  16. ^ J.H. Greene. "NASA Johnson Space Center Oral History Project Biographical Data Sheet" (PDF). NASA. 
  17. ^ Rogers Commission report (1987). "Implementation of the Recommendations of the Presidential Commission on the Space Shuttle Challenger Accident, Recommendation VII". Retrieved 2011-07-12. 
  18. ^ Columbia Accident Investigation Board (2003). "Report of Columbia Accident Investigation Board" (PDF) I. p. 178. Retrieved 2011-07-12. 
  19. ^ Columbia Accident Investigation Board (2003). "Report of Columbia Accident Investigation Board" (PDF) I. p. 195. Retrieved 2011-07-12. 

External links

  • Report of the PRESIDENTIAL COMMISSION on the Space Shuttle Challenger Accident — the Rogers Commission report on the accident
  • Hearing on the Space Shuttle Accident and the Rogers Commission Report. Pages: 219 (14.2 MB) U.S. Senate Committee on Commerce, Science and Transportation, Subcommittee on Science, Technology and Space. Date: 99th Congress, 2nd Session, February 18, June 10 and 17, 1986. See also GPO Challenger index page.
  • [2] - Report of the PRESIDENTIAL COMMISSION on the Space Shuttle Challenger Accident, Appendix F - Personal Observations on Reliability of Shuttle by R. P. Feynman
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