Space Shuttle Challenger

Last updated

Challenger
S83-35803 (cropped).jpg
Challenger in orbit in 1983, during STS-7
Type Spaceplane
Class Space Shuttle orbiter
Eponym HMS Challenger (1858)
Serial no.
  • STA-099 (1978–1979)
  • OV-099
Owner NASA
Manufacturer Rockwell International
Specifications
Dry mass80,600 kilograms (177,700 lb)
Rocket Space Shuttle
History
First flight
Last flight
Flights10
Flight time1,496 hours [1]
Traveled41,527,414 kilometres (25,803,939 mi) around Earth
Orbits995 around Earth
Fate Exploded during launch
Space Shuttle orbiters
  Columbia
Discovery  

Space Shuttle Challenger (OV-099) was a Space Shuttle orbiter manufactured by Rockwell International and operated by NASA. Named after the commanding ship of a nineteenth-century scientific expedition that traveled the world, Challenger was the second Space Shuttle orbiter to fly into space after Columbia , and launched on its maiden flight in April 1983. It was destroyed in January 1986 soon after launch in a disaster that killed all seven crewmembers aboard.

Contents

Initially manufactured as a test article not intended for spaceflight, it was used for ground testing of the Space Shuttle orbiter's structural design. However, after NASA found that their original plan to upgrade Enterprise for spaceflight would be more expensive than upgrading Challenger, the orbiter was pressed into operational service in the Space Shuttle program. Lessons learned from the first orbital flights of Columbia led to Challenger's design possessing fewer thermal protection system tiles and a lighter fuselage and wings. This led to it being 2,200 pounds (1,000 kilograms) lighter than Columbia, though still 5,700 pounds (2,600 kilograms) heavier than Discovery .

During its three years of operation, Challenger was flown on ten missions in the Space Shuttle program, spending over 62 days in space and completing almost 1,000 orbits around Earth. Following its maiden flight, Challenger supplanted Columbia as the leader of the Space Shuttle fleet, being the most-flown orbiter during all three years of its operation while Columbia itself was seldom used during the same time frame. Challenger was used for numerous civilian satellite launches, such as the first tracking and data relay satellite, the Palapa B communications satellites, the Long Duration Exposure Facility, and the Earth Radiation Budget Satellite. It was also used as a test bed for the Manned Maneuvering Unit (MMU) and served as the platform to repair the malfunctioning SolarMax telescope. In addition, three consecutive Spacelab missions were conducted with the orbiter in 1985, one of which being the first German crewed spaceflight mission. Passengers carried into orbit by Challenger include the first American female astronaut, the first American female spacewalker, the first African-American astronaut, and the first Canadian astronaut.

On its tenth flight in January 1986, Challenger broke up 73 seconds after liftoff, killing the seven-member crew of STS-51-L that included Christa McAuliffe, who would have been the first teacher in space. The Rogers Commission concluded that an O-ring seal in one of Challenger's solid rocket boosters failed to contain pressurized burning gas that leaked out of the booster, causing a structural failure of Challenger's external tank and the orbiter's subsequent breakup due to aerodynamic forces. NASA's organizational culture was also scrutinized by the Rogers Commission, and the Space Shuttle program's goal of replacing the United States' expendable launch systems was cast into doubt. The loss of Challenger and its crew led to a broad rescope of the program, and numerous aspects – such as launches from Vandenberg, the MMU, and Shuttle-Centaur – were scrapped to improve crew safety; Challenger and Atlantis were the only orbiters modified to conduct Shuttle-Centaur launches. The recovered remains of the orbiter are mostly buried in a missile silo located at Cape Canaveral LC-31; one piece is on display at the Kennedy Space Center Visitor Complex.

History

Challenger was named after HMS Challenger, a British corvette that was the command ship for the Challenger Expedition, a pioneering global marine research expedition undertaken from 1872 through 1876. [2] The Apollo 17 Lunar Module, which landed on the Moon in 1972, was also named Challenger. [2]

Construction

Challenger being prepared in 1985 for its penultimate flight, STS-61-A Challenger 1A.jpg
Challenger being prepared in 1985 for its penultimate flight, STS-61-A
Challenger atop a Crawler-transporter, en route to the launch site for its final flight, STS-51-L STS-51-L - Space Shuttle Challenger on the Crawler-Transporter.jpg
Challenger atop a Crawler-transporter, en route to the launch site for its final flight, STS-51-L

Because of the low production volume of orbiters, the Space Shuttle program decided to build a vehicle as a Structural Test Article, STA-099, that could later be converted to a flight vehicle. The contract for STA-099 was awarded to North American Rockwell on July 26, 1972, and construction was completed in February 1978. [3] After STA-099's rollout, it was sent to a Lockheed test site in Palmdale, where it spent over 11 months in vibration tests designed to simulate entire shuttle flights, from launch to landing. [4] To prevent damage during structural testing, qualification tests were performed to a safety factor of 1.2 times the design limit loads. The qualification tests were used to validate computational models, and compliance with the required 1.4 factor of safety was shown by analysis. [5] STA-099 was essentially a complete airframe of a Space Shuttle orbiter, with only a mockup crew module installed and thermal insulation placed on its forward fuselage. [6]

Challenger being transported by Shuttle Carrier Aircraft 905, shortly before being delivered in 1982 STS Challenger on 747 SCA.jpg
Challenger being transported by Shuttle Carrier Aircraft 905, shortly before being delivered in 1982

NASA planned to refit the prototype orbiter Enterprise (OV-101), used for flight testing, as the second operational orbiter; but Enterprise lacked most of the systems needed for flight, including a functional propulsion system, thermal insulation, a life support system, and most of the cockpit instrumentation. Modifying it for spaceflight was considered to be too difficult, expensive, and time-consuming. Since STA-099 was not as far along in the construction of its airframe, it would be easier to upgrade to a flight article. Because STA-099's qualification testing prevented damage, NASA found that rebuilding STA-099 into a flightworthy orbiter would be less expensive than refitting Enterprise. Work on converting STA-099 to operational status began in January 1979, starting with the crew module (the pressurized portion of the vehicle), as the rest of the vehicle was still being used for testing by Lockheed. STA-099 returned to the Rockwell plant in November 1979, and the original, unfinished crew module was replaced with the newly constructed model. Major parts of STA-099, including the payload bay doors, body flap, wings, and vertical stabilizer, also had to be returned to their individual subcontractors for rework. By early 1981, most of these components had returned to Palmdale to be reinstalled. Work continued on the conversion until July 1982, when the new orbiter was rolled out as Challenger. [4]

Challenger, as did the orbiters built after it, had fewer tiles in its Thermal Protection System than Columbia, though it still made heavier use of the white LRSI tiles on the cabin and main fuselage than did the later orbiters. Most of the tiles on the payload bay doors, upper wing surfaces, and rear fuselage surfaces were replaced with DuPont white Nomex felt insulation. These modifications and an overall lighter structure allowed Challenger to carry 2,500 lb (1,100 kg) more payload than Columbia.Challenger's fuselage and wings were stronger and lighter than Columbia's. [4] The hatch and vertical-stabilizer tile patterns were different from those of the other orbiters. Challenger was the first orbiter to have a heads-up display (HUD) system for use in the descent phase of a mission, and the first to feature Phase I main engines rated for 104% maximum thrust.

Construction milestones (as STA-099)

DateMilestone [7]
July 26, 1972Contract Award to North American Rockwell
November 21, 1975Start structural assembly of crew module
June 14, 1976Start structural assembly of aft fuselage.
March 16, 1977Wings arrive at Palmdale from Grumman
September 30, 1977Start of Final Assembly
February 10, 1978Completed Final Assembly
February 14, 1978Rollout from Palmdale

Construction milestones (as OV-099)

DateMilestone [7]
January 5, 1979Contract Award to Rockwell International, Space Transportation Systems Division
January 28, 1979Start structural assembly of crew module
November 3, 1980Start of Final Assembly
October 23, 1981Completed Final Assembly
June 30, 1982Rollout from Palmdale
July 1, 1982Overland transport from Palmdale to Edwards
July 5, 1982Delivery to KSC
December 18, 1982Flight Readiness Firing (FRF)
January 25, 1983Second FRF (performed due to a hydrogen leak having occurring during the first FRF) [8]
April 4, 1983First Flight (STS-6)

Flights and modifications

After its first flight in April 1983, Challenger quickly became the workhorse of NASA's Space Shuttle fleet, flying six of nine Space Shuttle missions in 1983 and 1984. Even when the orbiters Discovery and Atlantis joined the fleet, Challenger flew three missions a year from 1983 to 1985. Challenger, along with Atlantis, was modified at Kennedy Space Center to be able to carry the Centaur-G upper stage in its payload bay. If flight STS-51-L had been successful, Challenger's next mission would have been the deployment of the Ulysses probe with the Centaur to study the polar regions of the Sun.

Challenger flew the first American woman, African-American, Dutchman, and Canadian into space; carried three Spacelab missions; and performed the first night launch and night landing of a Space Shuttle.

Final mission and destruction

Challenger breaks apart after launch in 1986, killing all crew on board, including Christa McAuliffe, a teacher with the NASA Teacher in Space Project Challenger explosion.jpg
Challenger breaks apart after launch in 1986, killing all crew on board, including Christa McAuliffe, a teacher with the NASA Teacher in Space Project

STS-51-L was the orbiter's tenth and final flight, initially planned to launch on January 26, 1986 (after several technical and paperwork delays). The mission attracted huge media attention, as one of the crew was a civilian schoolteacher, Christa McAuliffe, who was assigned to carry out live lessons from the orbiter (as part of NASA's Teacher in Space Project). Other members would deploy the TDRS-B satellite and conduct comet observations.

Challenger blasted off at 11:38 am EST on January 28, 1986. Just over a minute into the flight, a faulty booster joint opened up, leading to a flame that melted securing struts which resulted in a catastrophic structural failure and explosion of the External Tank. The resulting pressure waves and aerodynamic forces destroyed the orbiter, resulting in the loss of all of the crew.

Challenger was the first Space Shuttle to be destroyed in a mission disaster. [9] The collected debris of the vessel is currently buried in decommissioned missile silos at Launch Complex 31, Cape Canaveral Air Force Station. A section of the fuselage recovered from Space Shuttle Challenger can also be found at the "Forever Remembered" memorial at the Kennedy Space Center Visitor Complex in Florida. Debris from the orbiter sometimes washes up on the Florida coast. [10] This is collected and transported to the silos for storage. Because of its early loss, Challenger was the only Space Shuttle that never wore the NASA "meatball" logo, and was never modified with the MEDS "glass cockpit". The tail was never fitted with a drag chute, which was fitted to the remaining orbiters in 1992. Challenger and sister ship Columbia are the only two shuttles that never visited the Mir Space Station or the International Space Station. In September 2020 Netflix released Challenger: The Final Flight , a four-part miniseries created by Steven Leckart and Glen Zipper documenting the tragedy firsthand.

Lawsuits

In March 1988 the federal government and Morton Thiokol Inc. agreed to pay $7.7 million in cash and annuities to the families of four of the seven Challenger astronauts as part of a settlement aimed at avoiding lawsuits in the nation's worst space disaster, according to government documents. The documents show that Morton Thiokol, which manufactured the faulty solid rocket boosters blamed for the accident, paid 60 percent, or $4,641,000. The remainder, $3,094,000, was paid by the government.

In September 1988 a federal judge dismissed two lawsuits seeking $3 billion from Space Shuttle rocket-maker Morton Thiokol Inc. by Roger Boisjoly, a former company engineer who warned against the ill-fated 1986 Challenger launch. [11]

List of missions

Shuttle-challenger.jpg
Challenger rolls out from the Orbiter Processing Facility (OPF) to the Vehicle Assembly Building (VAB) in 1983
Space Shuttle Challenger as STA-099.jpg
Challenger served as structural test article STA-099 before being retrofitted as an orbiter

Mission and tribute insignias

NASA Orbiter Tribute for Space Shuttle Challenger Space Shuttle Challenger tribute poster.jpg
NASA Orbiter Tribute for Space Shuttle Challenger
Mission insignia for Challenger flights
Sts-6-patch.png
Sts-7-patch.png
STS-8 patch.svg
Sts-41-b-patch.png
STS-41-C patch.png
STS-41-G patch.png
STS-6 STS-7 STS-8 STS-41-B STS-41-C STS-41-G
Sts-51-b-patch.png
Sts-51-f-patch.png
STS-61-a-patch.png
STS-51-L.svg
STS-61-F patch.png
STS-51-B STS-51-F STS-61-A STS-51-L STS-61-F*

* Mission canceled due to loss of Challenger on STS-51-L.

See also

Related Research Articles

<span class="mw-page-title-main">Space Shuttle</span> Partially reusable launch system and space plane

The Space Shuttle is a retired, partially reusable low Earth orbital spacecraft system operated from 1981 to 2011 by the U.S. National Aeronautics and Space Administration (NASA) as part of the Space Shuttle program. Its official program name was Space Transportation System (STS), taken from the 1969 plan led by U.S. Vice President Spiro Agnew for a system of reusable spacecraft where it was the only item funded for development.

Space Shuttle <i>Columbia</i> Space Shuttle orbiter (1981–2003)

Space Shuttle Columbia (OV-102) was a Space Shuttle orbiter manufactured by Rockwell International and operated by NASA. Named after the first American ship to circumnavigate the globe, and the female personification of the United States, Columbia was the first of five Space Shuttle orbiters to fly in space, debuting the Space Shuttle launch vehicle on its maiden flight on April 12, 1981 and becoming the first spacecraft to be re-used after its first flight when it launched on STS-2 on November 12, 1981. As only the second full-scale orbiter to be manufactured after the Approach and Landing Test vehicle Enterprise, Columbia retained unique external and internal features compared to later orbiters, such as test instrumentation and distinctive black chines. In addition to a heavier aft fuselage and the retention of an internal airlock throughout its lifetime, these made Columbia the heaviest of the five spacefaring orbiters; around 1,000 kilograms heavier than Challenger and 3,600 kilograms heavier than Endeavour when originally constructed. Columbia also carried ejection seats based on those from the SR-71 during its first six flights until 1983, and from 1986 onwards carried an imaging pod on its vertical stabilizer.

Space Shuttle <i>Discovery</i> Space Shuttle orbiter (1984–2011)

Space Shuttle Discovery is a retired American Space Shuttle orbiter. The spaceplane was one of the orbiters from NASA's Space Shuttle program and the third of five fully operational orbiters to be built. Its first mission, STS-41-D, flew from August 30 to September 5, 1984. Over 27 years of service it launched and landed 39 times, aggregating more spaceflights than any other spacecraft to date. The Space Shuttle launch vehicle had three main components: the Space Shuttle orbiter, a single-use central fuel tank, and two reusable solid rocket boosters. Nearly 25,000 heat-resistant tiles cover the orbiter to protect it from high temperatures on re-entry.

Space Shuttle <i>Atlantis</i> Space Shuttle orbiter (1985–2011)

Space Shuttle Atlantis is a retired Space Shuttle orbiter vehicle which belongs to NASA, the spaceflight and space exploration agency of the United States. Atlantis was manufactured by the Rockwell International company in Southern California and was delivered to the Kennedy Space Center in Eastern Florida in April 1985. Atlantis is also the fourth operational and the second-to-last Space Shuttle built. Its maiden flight was STS-51-J made from October 3 to 7, 1985.

<span class="mw-page-title-main">Space Shuttle program</span> 1972–2011 United States human spaceflight program

The Space Shuttle program was the fourth human spaceflight program carried out by the U.S. National Aeronautics and Space Administration (NASA), which accomplished routine transportation for Earth-to-orbit crew and cargo from 1981 to 2011. Its official program name was Space Transportation System (STS), taken from a 1969 plan for a system of reusable spacecraft where it was the only item funded for development, as a proposed nuclear shuttle in the plan was cancelled in 1972. It flew 135 missions and carried 355 astronauts from 16 countries, many on multiple trips.

<span class="mw-page-title-main">STS-107</span> 2003 failed flight of the Space Shuttle Columbia

STS-107 was the 113th flight of the Space Shuttle program, and the 28th and final flight of Space Shuttle Columbia. The mission ended on February 1, 2003, with the Space Shuttle Columbia disaster which killed all seven crew members and destroyed the space shuttle. It was the 88th post-Challenger disaster mission.

Space Shuttle <i>Columbia</i> disaster 2003 American spaceflight accident

On Saturday, February 1, 2003, Space Shuttle Columbia disintegrated as it re-entered the atmosphere over Texas and Louisiana, killing all seven astronauts on board. It was the second Space Shuttle mission to end in disaster, after the loss of Challenger and crew in 1986.

<span class="mw-page-title-main">STS-9</span> 1983 American crewed spaceflight and first flight with Spacelab

STS-9 was the ninth NASA Space Shuttle mission and the sixth mission of the Space Shuttle Columbia. Launched on November 28, 1983, the ten-day mission carried the first Spacelab laboratory module into orbit.

<span class="mw-page-title-main">STS-2</span> 1981 American crewed spaceflight

STS-2 was the second Space Shuttle mission conducted by NASA, and the second flight of the orbiter Columbia. The mission, crewed by Joe H. Engle and Richard H. Truly, launched on November 12, 1981, and landed two days later on November 14, 1981. STS-2 marked the first time that a crewed, reusable orbital vehicle returned to space. This mission tested the Shuttle Imaging Radar (SIR) as part of the OSTA-1 payload, along with a wide range of other experiments including the Shuttle robotic arm, commonly known as Canadarm. Other experiments or tests included Shuttle Multispectral Infrared Radiometer, Feature Identification and Location Experiment, Measurement of Air Pollution from Satellites, Ocean Color Experiment, Night/Day optical Survey of Lightning, Heflex Bioengineering Test, and Aerodynamic Coefficient Identification Package (ACIP). One of the feats accomplished was various tests on the Orbital Maneuvring System (OMS) including starting and restarting the engines while in orbit and various adjustments to its orbit. The OMS tests also helped adjust the Shuttle's orbit for use of the radar. During the mission, President Reagan called the crew of STS-2 from Mission Control Center in Houston.

Space Shuttle <i>Challenger</i> disaster 1986 inflight breakup of U.S. Space Shuttle

On January 28, 1986, the Space Shuttle Challenger broke apart 73 seconds into its flight, killing all seven crew members aboard. The spacecraft disintegrated 46,000 feet (14 km) above the Atlantic Ocean, off the coast of Cape Canaveral, Florida, at 11:39 a.m. EST. It was the first fatal accident involving an American spacecraft while in flight.

<span class="mw-page-title-main">STS-8</span> 1983 Space Shuttle Challenger mission

STS-8 was the eighth NASA Space Shuttle mission and the third flight of the Space Shuttle Challenger. It launched on August 30, 1983, and landed on September 5, 1983, conducting the first night launch and night landing of the Space Shuttle program. It also carried the first African-American astronaut, Guion Bluford. The mission successfully achieved all of its planned research objectives, but was marred by the subsequent discovery that a solid-fuel rocket booster had almost malfunctioned catastrophically during the launch.

<span class="mw-page-title-main">STS-51-C</span> 1985 American crewed spaceflight for the Department of Defense

STS-51-C was the 15th flight of NASA's Space Shuttle program, and the third flight of Space Shuttle Discovery. It launched on January 24, 1985, and made the fourth shuttle landing at the Shuttle Landing Facility at the Kennedy Space Center in Florida on January 27, 1985. STS-51-C was the first shuttle mission dedicated to the United States Department of Defense (DoD), and consequently many details remain classified. NASA reported that a satellite (USA-8) was deployed during the mission using an Inertial Upper Stage booster was deployed and met mission objectives. At just over three days, the mission was shorter in duration than most civilian missions and was the shortest of Discovery's career.

<span class="mw-page-title-main">STS-27</span> 1988 near-disastrous American crewed spaceflight to deploy Lacrosse 1

STS-27 was the 27th NASA Space Shuttle mission, and the third flight of Space Shuttle Atlantis. Launching on December 2, 1988, on a four-day mission, it was the second shuttle flight after the Space Shuttle Challenger disaster of January 1986. STS-27 carried a classified payload for the U.S. Department of Defense (DoD), ultimately determined to be a Lacrosse surveillance satellite. The vessel's heat shielding was substantially damaged during lift-off, and crew members thought that they would die during reentry. This was a situation that was similar to the one that would prove fatal 15 years later on STS-107. Compared to the damage that Columbia sustained on STS-107, Atlantis experienced more extensive damage. However, this was over less critical areas and the missing tile was over an antenna which gave extra protection to the spacecraft structure. The mission landed successfully, although intense heat damage needed to be repaired.

<span class="mw-page-title-main">STS-28</span> 1989 American crewed spaceflight for the Department of Defense

STS-28 was the 30th NASA Space Shuttle mission, the fourth shuttle mission dedicated to United States Department of Defense (DoD) purposes, and the eighth flight of Space Shuttle Columbia. The mission launched on August 8, 1989, and traveled 3,400,000 km (2,100,000 mi) during 81 orbits of the Earth, before landing on runway 17 of Edwards Air Force Base, California, on August 13, 1989. STS-28 was also Columbia's first flight since January 1986, when it had flown STS-61-C, the mission directly preceding the Challenger disaster of STS-51-L. The mission details of STS-28 are classified, but the payload is widely believed to have been the first SDS-2 relay communications satellite. The altitude of the mission was between 295 km (183 mi) and 307 km (191 mi).

<span class="mw-page-title-main">Robert F. Overmyer</span> American astronaut (1936–1996)

Robert Franklyn "Bob" Overmyer was an American test pilot, naval aviator, aeronautical engineer, physicist, United States Marine Corps officer, and USAF/NASA astronaut. Overmyer was selected by the Air Force as an astronaut for its Manned Orbiting Laboratory in 1966. Upon cancellation of the program in 1969, he became a NASA astronaut and served support crew duties for the Apollo program, Skylab program, and Apollo-Soyuz Test Project. In 1976, he was assigned to the Space Shuttle program and flew as pilot on STS-5 in 1982 and as commander on STS-51-B in 1985. He was selected as a lead investigator into the Space Shuttle Challenger disaster in 1986, retiring from NASA that same year. A decade later, Overmyer died while testing the Cirrus VK-30 homebuilt aircraft.

<span class="mw-page-title-main">STS-118</span> 2007 American crewed spaceflight to the ISS

STS-118 was a Space Shuttle mission to the International Space Station (ISS) flown by the orbiter Endeavour. STS-118 lifted off on August 8, 2007, from launch pad 39A at Kennedy Space Center (KSC), Florida and landed at the Shuttle Landing Facility at KSC on August 21, 2007.

<span class="mw-page-title-main">STS-51-L</span> Failed 1986 American crewed spaceflight

STS-51-L was the disastrous 25th mission of NASA's Space Shuttle program and the final flight of Space Shuttle Challenger.

Criticism of the Space Shuttle program stemmed from claims that NASA's Space Shuttle program failed to achieve its promised cost and utility goals, as well as design, cost, management, and safety issues. Fundamentally, it failed in the goal of reducing the cost of space access. Space Shuttle incremental per-pound launch costs ultimately turned out to be considerably higher than those of expendable launchers. In 2010, the incremental cost per flight of the Space Shuttle was $409 million, or $14,186 per kilogram to low Earth orbit (LEO). In contrast, the comparable Proton launch vehicle cost was $141 million, or $6,721 per kilogram to LEO and the Soyuz 2.1 was $55 million, or $6,665 per kilogram, despite these launch vehicles not being reusable.

<span class="mw-page-title-main">Space Shuttle orbiter</span> Spaceplane component of the Space Shuttle

The Space Shuttle orbiter is the spaceplane component of the Space Shuttle, a partially reusable orbital spacecraft system that was part of the discontinued Space Shuttle program. Operated from 1981 to 2011 by NASA, the U.S. space agency, this vehicle could carry astronauts and payloads into low Earth orbit, perform in-space operations, then re-enter the atmosphere and land as a glider, returning its crew and any on-board payload to the Earth.

<span class="mw-page-title-main">STS-61-F</span> Cancelled 1986 Space Shuttle mission

STS-61-F was a NASA Space Shuttle mission planned to launch on 15 May 1986 using Challenger. It was canceled after Challenger was destroyed earlier that year.

References

  1. Harwood, William (October 12, 2009). "STS-129/ISS-ULF3 Quick-Look Data" (PDF). CBS News . Retrieved November 30, 2009.
  2. 1 2 "Orbiter Vehicles" Archived February 3, 2009, at the Wayback Machine , Kennedy Space Center, NASA, 2000-10-03, retrieved November 7, 2007.
  3. "NASA – Space Shuttle Overview: Challenger (OV-099)". Archived from the original on June 11, 2017. Retrieved November 7, 2012.
  4. 1 2 3 Lardas, Mark (2012). Space Shuttle Launch System: 1972–2004. Osprey Publishing. p. 36.
  5. NASA Engineering and Safety Center (2007). Design Development Test and Evaluation (DDT&E) Considerations for Safe and Reliable Human Rated Spacecraft Systems, Vol. II Archived October 25, 2020, at the Wayback Machine , June 14, 2007, p. 23.
  6. Evans, Ben (2007). Space Shuttle Challenger: Ten Journeys Into the Unknown. Praxis Publishing. p. 8. ISBN   978-0-387-46355-1.
  7. 1 2 "Shuttle Orbiter Challenger (OV-099)". NASA/KSC. Archived from the original on May 23, 2019. Retrieved November 7, 2012.
  8. "30 Years Since STS-6: The Rise of the Challenger (Part 1)". April 6, 2013.
  9. Ware, Doug G. (January 28, 2016). "Engineer who warned of 1986 Challenger disaster still racked with guilt, three decades on". United Press International . Retrieved January 28, 2016.
  10. "Shuttle Challenger debris washes up on shore". CNN. 1996. Retrieved November 7, 2007.
  11. "JUDGE DISMISSES LAWSUITS AGAINST MAKER OF SHUTTLE ROCKET BY FORMER EMPLOYEE - The Washington Post". The Washington Post .
  12. Stamps (Philately)/Space Shuttle Challenger Archived May 29, 2014, at the Wayback Machine

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

Further reading