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Apollo 4

April 17, 2023

Apollo 4 (November 9, 1967), also known as SA-501, was the uncrewed first test flight of the Saturn V launch vehicle, the rocket that eventually took astronauts to the Moon. The space vehicle was assembled in the Vehicle Assembly Building, and was the first to be launched from Kennedy Space Center (KSC) in Florida, ascending from Launch Complex 39, where facilities built specially for the Saturn V had been constructed.

Apollo 4
The first flight of a Saturn V launch vehicle
Mission typeUncrewed Earth orbital CSM flight (A)
OperatorNASA
COSPAR ID1967-113A (command and service modules)
1967-113B (S-IVB)[1]
SATCAT no.3032
Mission duration8 hours, 36 minutes, 59 seconds
Orbits completed3
Spacecraft properties
SpacecraftApollo CSM-017
Apollo LTA-10R
ManufacturerNorth American Rockwell
Launch mass36,856 kilograms (81,253 lb)
Start of mission
Launch dateNovember 9, 1967, 12:00:01 (1967-11-09UTC12:00:01Z) UTC
RocketSaturn V SA-501
Launch siteKennedy LC-39A
End of mission
Recovered byUSS Bennington
Landing dateNovember 9, 1967, 20:37:00 (1967-11-09UTC20:38Z) UTC
Landing siteNorth Pacific Ocean
30°06′N 172°32′W / 30.100°N 172.533°W / 30.100; -172.533 (Apollo 4 splashdown)
Orbital parameters
Reference systemGeocentric
RegimeHighly elliptical orbit
Perigee altitude−204 kilometers (−110 nmi)
Apogee altitude18,092 kilometers (9,769 nmi)
Inclination31.9 degrees
Period314.58 minutes (initial)
EpochNovember 9, 1967[2]
 

Apollo 4 was an "all-up" test, meaning all rocket stages and spacecraft were fully functional on the initial flight, a first for NASA. It was the first time the S-IC first stage and S-II second stage flew. It also demonstrated the S-IVB third stage's first in-flight restart. The mission used a Block I command and service module modified to test several key Block II revisions, including its heat shield at simulated lunar-return velocity and angle.

The original launch date was planned for early 1967, but was delayed to November 9 because of a large number of problems with various elements of the spacecraft, and difficulties during pre-flight testing. The need for additional inspections following the Apollo 1 fire, which killed the first Apollo crew in January 1967, also contributed to delays. These issues delayed the flight through much of 1967.

The mission splashed down in the Pacific Ocean slightly less than nine hours after launch, having achieved its objectives. NASA considered the mission a complete success, proving that the Saturn V worked, an important step towards achieving the main objective of landing astronauts on the Moon, and bringing them back safely, before the end of the 1960s.

Background

In 1961 U.S. President John F. Kennedy proposed that his nation land an astronaut on the Moon by the end of the decade, with a safe return to Earth.[3] One of the early choices that had to be made to accomplish this goal was what launch vehicle to use. NASA decided on the Saturn C-5 rocket, a three-stage launch vehicle based on rockets already in development. In 1962 this was approved by NASA, which contemplated an initial test launch in 1965 and a first crewed flight by 1967, leaving plenty of time to accomplish Kennedy's goal.[4] In early 1963, NASA redesignated the C-5 as the Saturn V.[5]

After considerable debate within NASA, it was decided in late 1962 that lunar missions would have a "lunar orbit rendezvous" mode whereby the complete Apollo spacecraft would be propelled towards lunar orbit by the third stage of the launch vehicle, the S-IVB. Once in lunar orbit, the astronauts who would land would enter what was then known as the Lunar Excursion Module, which would separate from the rest of the spacecraft, land, and after taking off again be discarded once the crew had transferred back. The remainder of the vehicle would then return to Earth.[6] The launch facilities under development would not be sufficient for the new launch vehicle, and in 1962, NASA announced plans for a new complex on the Florida coast from which the Apollo lunar missions could be launched.[7] This was dubbed the Launch Operations Center, but after Kennedy's assassination in November 1963 was renamed the John F. Kennedy Space Center (KSC).[8] Apollo 4 was the first flight from KSC, and the first using Launch Complex 39 (LC-39) there, built to accommodate the Saturn V.[9]

The first three flights carrying Apollo equipment were launched using Saturn IBs. This smaller launch vehicle did not use the facilities at KSC, but issues resolved by Saturn IB flights would be valid for those to be launched by the Saturn V. Both the Saturn IB and the Saturn V would use a S-IVB, though the IB would use it as its second, final stage, rather than the third stage as on the Saturn V. Thus, many of the flight qualifications for the payload the Saturn V would carry could be resolved without having to expend one of the large launch vehicles.[10] In addition to flight-qualifying the hardware, it was necessary to prove that the ground systems at KSC could successfully launch a Saturn V before risking the lives of astronauts on one.[11]

Three Saturn IB launches (in order of launch, AS-201, AS-203 and AS-202) took place in 1966; all were successful. According to Charles D. Benson and William B. Flaherty in their history of KSC, "The Apollo-Saturn IB launches of 1966 represented important gains for NASA's launch team. LC-34 and LC-37, testbeds for automated checkout, were found wanting. In the twenty months between AS-201 and SA-501 [Apollo 4], KSC corrected the major automation problems. Without these trial and error advances, SA-501, the toughest launch in Apollo's history, would have been far more difficult."[12]

Delays

 
Apollo 4 inside the VAB

In January 1965 Major General Samuel C. Phillips, the Apollo Program Director, scheduled SA-501, the first test flight of the Saturn V, for January 1967. This left little spare time for delay, especially since two additional Saturn V launches were planned to follow in 1967.[13] Many Apollo officials lacked confidence in the proposed launch date, and these misgivings proved accurate. After an explosion involving a liquid oxygen line flowing to LC-39, from which SA-501 was to be launched, there was a potential for a delay of several weeks.[14]

North American Aviation was the contractor for both the S-II Saturn V second stage, and the Apollo command and service module (CSM) spacecraft. NASA had been experiencing problems with North American's schedule, cost, and quality performance on both programs, severe enough that Phillips led a team to North American's facility in California in November and December 1965 to investigate matters, and recommend solutions to the program management problems. He published his findings in a report to his supervisor, George Mueller.[15] Technicians found cracks in the S-II, delaying its test firings prior to acceptance by NASA. As North American worked to fix the S-II, parts of the rocket began to arrive at KSC, beginning with the S-IVB on August 14, 1966, (by Pregnant Guppy aircraft) and followed closely by the first stage S-IC on September 12 (by barge). A spool-shaped "spacer" that took the place of the S-II allowed NASA to stack the vehicle as its checkout proceeded in the Vehicle Assembly Building (VAB). With the S-II still not arrived by November 1966 (it had originally been planned for July), NASA planned January 1967 for its arrival, with launch three months later. The CSM arrived on December 24, 1966, with the S-II arriving on January 21, 1967. Last to arrive was the aft interstage (the structure between the first and second stages), on January 31.[14]

The Apollo 1 fire on January 27, 1967, which killed three astronauts during a launch pad test, threw NASA's schedules into further question – even though SA-501 was uncrewed, NASA officials wanted to closely examine its CSM. NASA had planned to restack the vehicle once this was done,[14] but instead the inspections that took place found a total of 1,407 errors in the spacecraft.[14] Inspectors found many haphazardly routed and skinned wires, prime material for short circuits.[16]

 
The Apollo 4 launch vehicle (right) is rolled out from the Vehicle Assembly Building (far left) past the Mobile Servicing Structure.

Other problems were discovered, such as an extra, out-of-place bolt in one of the J-2 engines; NASA was concerned not only with retrieving the surplus hardware, but also with discovering how it got there. A meeting in March 1967, with Phillips in attendance, disclosed twelve hundred problems with the Saturn V, which the technicians proposed to deal with at the rate of eighty per day.[17] While the CSM was undergoing repairs, the spacer was removed from the vehicle stack, and the S-II positioned. On May 24 it was announced that the S-II would be removed for inspection following the discovery of hairline cracks in another S-II then being constructed, this work being completed by mid-June, after which the CSM was also returned to the stack, the first time the launch vehicle and spacecraft had been fully assembled. It was rolled out to LC-39 on August 26, 1967,[14] where it was joined by the Mobile Servicing Structure that allowed access to the launch vehicle and spacecraft two days later, also transported by crawler.[18] This was the first time a NASA spacecraft had been assembled away from its launch site, something allowing protection from Florida's hot and humid climate for equipment and personnel.[19]

The countdown demonstration test had been scheduled for September 20 but was soon rescheduled for the 25th and did not begin until the evening of the 27th. By October 2 another two days had been lost to delays, but by October 4 it reached launch minus 45 minutes. Then a computer failed, and the count, reset to minus 13 hours before launch, resumed on October 9. More computer and equipment problems appeared. By then, the launch team was exhausted and a two-day break was declared. The test was completed on October 13,[20] meaning that it took three weeks rather than the expectation of a week or slightly over. With world attention on the launch, NASA public relations head Julian Scheer brought the skeptical questions from the media as to whether Apollo 4 would ever fly to the attention of NASA Administrator James E. Webb, leading to a heated meeting in which Webb said he would announce the launch date when he wanted to.[21]

These difficulties provided the launch crew with valuable experience, but meant that Apollo 4 could not be launched at the earliest until November 7. A flight readiness review on October 19 cleared Apollo 4 for launch, assuming the remaining tests and modifications were satisfactorily completed.[20] Concerned about the potential for leaks in the Teflon seal rings and drain valves of the liquid oxygen tanks on board the vehicle due to the long time it had been sitting on the launch pad in the Florida sun, on November 2 Phillips postponed the launch until November 9.[21]

Objectives

The purpose of Apollo 4 (together with the Saturn V's other uncrewed test flight, Apollo 6) was to qualify the launch vehicle, the Apollo spacecraft, and the ground systems, for the crewed lunar landing missions that would follow. In addition to being the first flight of the Saturn V, Apollo 4 marked the first flight for two of its stages: the S-IC first stage and the S-II second stage (the S-IVB had flown as part of the Saturn IB).[11][22]

Objectives for the Apollo 4 mission were to gain flight data on the Saturn V and spacecraft structural integrity and mutual compatibility, including on flight loads and during the separations as each Saturn V stage was exhausted and was discarded. NASA also wanted data on subsystem operations, including the emergency detection subsystem, and sought to evaluate the Apollo CM's heat shield under conditions simulating a return from a lunar mission.[23] NASA was also seeking to test the restart capability of the S-IVB in space.[24] These objectives would all be achieved.[25]

Equipment

 
CSM-017 is moved into position.

Apollo 4 carried CSM-017, a Block I design of the command and service modules meant for testing and for Apollo's early Earth orbit flights. Unlike the Block II spacecraft which would go to the Moon, it lacked the capability to dock with a lunar module (LM).[26] CSM-017 was made up of command module CM-017 and service module SM-020.[27] CM-017 was the second fully-functional CM to be delivered to NASA; the first, CM-012, was designated for Apollo 1, and was severely damaged in the fire.[16] SM-020 was originally to be used in CSM-020, slated for the second Saturn V test, but this changed after SM-017, which was intended to be part of CSM-017, was damaged in an explosion and was scrapped.[27]

Several significant Block II modifications were made to CSM-017 for certification purposes, since no Block II spacecraft would fly without a crew.[26] These included upgrading the heat shield to Block II standards, using a Block II CM-to-SM umbilical connector, and installing Block II-style VHF and S-band antennae. Additionally, there were modifications to the CM's hatch.[28] The fact that the spacecraft hatch could not be readily opened in case of emergency had trapped the Apollo 1 astronauts in the fire that took their lives, and led to a redesign of the hatch. The new hatch was not scheduled to fly until the second Saturn V test (Apollo 6), but its seals were to be flight-qualified on Apollo 4 – the hatch window was replaced with a test panel simulating the seals and exterior heat shield. The heat shield was upgraded to Block II standards since Apollo 4's high-speed re-entry into Earth's atmosphere was intended to simulate a return from the Moon.[29] Special equipment had been installed to allow Mission Control to operate the CSM's systems remotely, and there was a camera that would automatically take pictures out of one of the CM's windows on its final orbit.[30] Since Apollo 4 carried no crew the CM lacked couches, controls and displays.[31]

A Lunar Module Test Article, LTA-10R, was carried, and remained inside the Spacecraft–LM Adapter, numbered as SLA-8, on the third stage of the Saturn V throughout its flight. The LTA consisted of a flight-type descent stage lacking landing gear, with its fuel and oxidizer tanks containing a mixture of water, glycol, and freon. There was an ascent stage mockup atop it, made of aluminum with ballast, and having no flight systems. The SLA and LTA were instrumented to measure stress on them as the Saturn V made its way to orbit.[27][32] LTA-10R would be destroyed when the S-IVB re-entered the atmosphere.[33]

 
Apollo 4 on the launch pad

Apollo 4 was the first flight of a Saturn V. At the time, it was the largest launch vehicle to ever attempt a flight.[34] This mission was the first time NASA used "all-up" testing, requiring that each stage of the launch vehicle work and that the vehicle carry a working spacecraft; a decision that goes back to late 1963.[35] Mueller, the head of the NASA Office of Manned Space Flight at that time, was a systems engineer who previously worked on military missile projects. He had recognized that all-up testing was successfully used to rapidly develop the Air Force's Minuteman ICBM program, and thought it could be used to meet Apollo's schedule.[36] In a 1963 memo he ordered that both the first Saturn IB flight and the first Saturn V flight be uncrewed, that each stage be fully functional, and that each carry a working spacecraft. The second flight of each type of rocket would also be an uncrewed test flight, and the third flight would be crewed.[37] Previously, the way Wernher von Braun's team at the Marshall Space Flight Center tested new rockets was by testing each stage incrementally.[36] The Saturn V would be tested all at once, with all stages live and fully flight-worthy, including an Apollo CSM.[35] This decision dramatically streamlined the program's test flight phase, eliminating four missions, but it required everything to work properly the first time.[35] Apollo program managers had misgivings about all-up testing but agreed to it with some reluctance since incremental component tests would inevitably push the lunar landing mission past the 1970 goal.[38]

Mission numbering

Apollo 4 was the first mission to fly under the official Apollo mission numbering scheme approved by Mueller on April 24, 1967; the planned first crewed flight, in preparation for which three astronauts had died, was retroactively designated Apollo 1 as the widows of the crew members had requested. Although three uncrewed Saturn IB flights had already occurred, only two had contained an Apollo spacecraft (AS-203 carried only the aerodynamic nose cone). Mueller resumed the numbering sequence at Apollo 4, without designating an Apollo 2 or 3.[39][40]

Public interest and media coverage

VIPs swarmed to KSC in the days before the launch. Von Braun arrived on November 6, scheduled for an exclusive executive dinner and conference that evening. NASA executives, figures from industry, Congressional leaders and diplomats also came for the launch.[41] Each NASA center involved had a list of VIP guests, as did NASA headquarters in Washington, and duplications were sorted out so each center's director could invite guests personally. They watched the launch from uncovered bleachers near the VAB. NASA set up press headquarters in Cocoa Beach, where media representatives were accredited, and offered tours of KSC to visiting journalists, as well as a half-hourly shuttle service. NASA provided extensive telephone facilities for the media at the press site near LC-39, at their expense. KSC workers and their dependents watched the launch from near their work assignments.[42] In addition, 43 employees of contractors who had performed in an exemplary manner were selected as "Manned Flight Awareness" honorees, given a VIP tour of KSC, a social evening in which six astronauts participated, and a view of the launch.[43]

Apollo 4, being the first flight of the Saturn V, gained intense media coverage, and writers struggled to convey to the public the size of the launch vehicle, stating that it would tower well over the Statue of Liberty and be thirteen times as heavy. North American, in a handout to the media, noted that the 3000-ton Saturn V comfortably outweighed a "good-sized navy destroyer".[44] On the day before launch, Mueller, Phillips, von Braun, Deputy Administrator Robert C. Seamans and Kennedy Space Center Director Kurt Debus[45] held an outdoor press conference for more than a thousand journalists, including some from the Soviet Union, with the Saturn V in the background.[46]

Launch and flight

Our building's shaking! The roar is terrific! The building's shaking! This big glass window is shaking. We're holding it with our hands! Look at that rocket go! Into the clouds at 3,000 feet! The roar is terrific! Look at it going! You can see it. Part of our roof has come in here.

Walter Cronkite, November 9, 1967[31][47]

On November 6, 1967, at 10:30 pm EST (03:30 November 7 UTC),[48] the 56+12-hour countdown sequence began with propellant loading. In total there were 89 trailer-truck loads of liquid oxygen, 28 trailer loads of LH2 (liquid hydrogen), and 27 rail cars of RP-1 (highly refined kerosene). This time the problems encountered were few and minor,[43] and did not delay the launch due to the use of built-in holds in the countdown, during which time accumulated delays were made good.[49]

Apollo 4 launched on November 9 at 7:00 am EST (noon UTC). Eight seconds before liftoff, the five F-1 engines ignited, sending tremendous amounts of noise across Kennedy Space Center. Even though the launch pads at LC-39 were more than five kilometers (three miles) from the Vehicle Assembly Building, the sound pressure was much stronger than expected and buffeted the VAB, Launch Control Center and press buildings. Dust was dislodged from the ceiling of the Launch Control Center and formed a layer on the consoles of mission controllers.[50] Dr. William Donn of Columbia University described the blast as one of the loudest noises, natural or artificial, in human history, excepting nuclear explosions.[51] CBS's commentator, Walter Cronkite, and producer Jeff Gralnick put their hands on their trailer's observation window to stop it from shattering as ceiling tiles fell from above. Cronkite found Apollo 4 to be the most frightening space mission he covered.[52]

 
Mission controllers watch Apollo 4 climb to orbit.

The launch placed the S-IVB and CSM into a nearly circular 190-kilometer (100 nmi) orbit, a nominal parking orbit that would be used on the lunar missions. After two orbits, in a simulation of the trans-lunar injection burn that would take later Apollo missions towards the Moon,[53] the S-IVB's first in-space re-ignition put the spacecraft into an elliptical orbit with an apogee of 17,218 kilometers (9,297 nmi) and a perigee deliberately aimed 84.6 kilometers (45.7 nmi) below the Earth's surface; this would ensure both a high-speed atmospheric re-entry of the command module, and destruction after re-entry of the S-IVB. Shortly after this burn, the CSM separated from the S-IVB and fired its service module engine to adjust the apogee to 18,092 kilometers (9,769 nmi). After passing apogee, the service module engine fired again for 281 seconds to increase re-entry speed to 11,168 meters per second (36,639 ft/s), at an altitude of 120 kilometers (400,000 ft) and a flight path angle of −6.93 degrees, simulating conditions on a return from the Moon.[54]

The CM landed approximately 8.6 nautical miles (16 km) from the target landing site northwest of Midway Island in the North Pacific Ocean. Its descent was visible from the deck of the aircraft carrier USS Bennington, the prime recovery ship, which within two hours had recovered it and one of its parachutes, the first time an Apollo parachute had been recovered for inspection. The spacecraft was brought to Hawaii for deactivation, after which it was taken to North American's facility in Downey, California, for post-flight analysis.[55]

Onboard cameras

Two cameras captured the staging event; one clip is shown. The first stage falls away, followed by the interstage ring.

Two motion-picture cameras were aboard Apollo 4. These were mounted on the Saturn V so as to capture the separation of the first stage and interstage from the launch vehicle. They would then be ejected, descend to the Atlantic Ocean in pods with parachutes and radio beacons, and be recovered about 870 kilometers (470 nmi) downrange of KSC.[56]

 
Earth photographed with the command module camera

The command module contained an automatic 70 mm film camera which captured photographs of almost the entire Earth. For a period of two hours and thirteen minutes as the craft approached and passed its apogee, a total of 755 color images were taken through the Command Pilot's (left-hand) forward-looking window, at altitudes ranging from 13,510 to 18,092 kilometers (7,295 to 9,769 nmi). These were the color images taken from the highest altitude at that time. The photographs were not of sufficient resolution to obtain detailed scientific data, but were still of interest to those involved in the Earth sciences.[24][57]

Aftermath, assessment and spacecraft location

Technically, managerially, and psychologically, Apollo 4 was an important and successful mission, especially in view of the number of firsts it tackled. It was the first flight of the first and second stages of the Saturn V (the S-IVB stage had flown on the Saturn IB launch vehicles), the first launch of the complete Saturn V, the first restart of the S-IVB in orbital flight, the first liftoff from Complex 39, the first flight test of the Block II command module heatshield, the first flight of even a simulated lunar module, and so on. The fact that everything worked so well and with so little trouble gave NASA a confident feeling, as Phillips phrased it, that "Apollo [was] on the way to the moon."

—Courtney G. Brooks, James M. Grimwood and Loyd S. Swenson, Chariots for Apollo: A History of Manned Lunar Spacecraft (1979)[26]

All Apollo 4 launch vehicle and spacecraft systems performed satisfactorily. On the climb to orbit, each of the Saturn V's three stages burned for slightly longer than expected. This left the craft in an orbit roughly one kilometer higher than expected, something well within tolerance. A burn eleven seconds longer than planned meant that the CM entered the Earth's atmosphere slightly faster and at a shallower angle than planned, but still within tolerance. This discrepancy happened not because of the performance of the guidance system (which was exemplary), but because the burn had been controlled from Earth. The CM's environmental control system kept the ship's cabin within acceptable temperatures and pressures throughout the mission, increasing by only 5.6 °C (10 °F) during atmospheric entry.[58][59]

President Lyndon Johnson described the launch, "The whole world could see the awesome sight of the first launch of what is now the largest rocket ever flown. This launching symbolizes the power this nation is harnessing for the peaceful exploration of space."[51] Von Braun spoke of the mission as "an expert launching all the way through, from lift-off exactly on time to performance of every single stage".[43] In his history of the Saturn V, Roger E. Bilstein wrote that "the flawless mission of Apollo 4 elated the entire NASA organization; everyone looked ahead with buoyant spirits."[60] Mueller stated that Apollo 4 dramatically increased the confidence of many and showed it should be possible for astronauts to land on the Moon by mid-1969.[43]

Apollo 6, the second flight of the Saturn V, was launched on April 4, 1968. Although the Saturn V's stages gave more trouble than on Apollo 4 (the mission experienced pogo oscillation during its first stage and had an early second-stage engine shutdown),[61] it was decided that a third uncrewed flight was unnecessary. The Saturn V flew with a crew for the first time on Apollo 8.[62] A Saturn V launched astronauts into space, and (except for Apollo 9) towards the Moon, on each of the Apollo missions that followed.[63]

In January 1969 CM-017 was transferred to the Smithsonian Institution.[64] As of 1978, it was on display at the North Carolina Museum of Life and Science.[65] The CM was subsequently put on public display at NASA's Stennis Space Center, where it remained until 2017. It is currently on display at Stennis Space Center's visitor center, the Infinity Science Center, in Pearlington, Mississippi.[66]

References

Citations

  1. ^ Orloff & Harland 2006, p. 124.
  2. ^ McDowell, Jonathan. "Master Satellite List". Jonathan's Space Pages. Retrieved March 23, 2014.
  3. ^ "Apollo 11 Mission Overview". NASA. December 21, 2017. Retrieved February 14, 2019.
  4. ^ Orloff & Harland 2006, pp. 21–22.
  5. ^ Bilstein 1996, p. 60.
  6. ^ Orloff & Harland 2006, pp. 25–26.
  7. ^ Bilstein 1996, p. 70.
  8. ^ Orloff & Harland 2006, p. 34.
  9. ^ Press Kit, pp. 30–31.
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  47. ^ Brinkley 2012, p. 369.
  48. ^ Orloff & Harland 2006, p. 137.
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  53. ^ Orloff & Harland 2006, p. 126.
  54. ^ Orloff & Harland 2006, pp. 126–127.
  55. ^ Orloff & Harland 2006, p. 127.
  56. ^ Press Kit, p. 12.
  57. ^ Davis, Jason (May 23, 2018). "The curious case of the Apollo 4 Earth images". The Planetary Society. Retrieved September 7, 2021.
  58. ^ Orloff & Harland 2006, pp. 124–127.
  59. ^ Press Kit, p. 43.
  60. ^ Bilstein 1996, p. 359.
  61. ^ Orloff & Harland 2006, pp. 153–154.
  62. ^ Orloff & Harland 2006, pp. 55–59.
  63. ^ Orloff & Harland 2006, pp. 572–573.
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  66. ^ Pearlman, Robert Z. (October 31, 2017). "Apollo 4 Capsule From 1st Saturn V Launch Lands at Infinity Science Center". www.space.com. Retrieved July 19, 2020.

Bibliography

  • Apollo 4 Press Kit. Washington, D.C.: NASA. 1968.
  • (PDF). George C. Marshall Space Flight Center: NASA. January 15, 1968. MPR-SAT-FE-68-1. Archived from the original (PDF) on March 3, 2016. Retrieved July 8, 2013.
  • Benson, Charles D.; Faherty, William Barnaby (1978). Moonport: A History of Apollo Launch Facilities and Operations. NASA History Series. Washington, D.C.: Scientific and Technical Information Office, NASA. LCCN 77029118. NASA SP-4204. Retrieved July 8, 2013.
  • Bilstein, Roger E. (1996). Stages to Saturn: A Technological History of the Apollo/Saturn Launch Vehicles. NASA History Series. Washington, D.C.: NASA History Office, NASA. ISBN 978-0-16-048909-9. LCCN 97149850. NASA SP-4206. Retrieved July 8, 2013.
  • Brinkley, Douglas (2012). Cronkite. New York: HarperCollins. ISBN 978-0-06-137426-5. LCCN 2011051467.
  • Brooks, Courtney G.; Grimwood, James M.; Swenson, Loyd S. Jr. (1979). Chariots for Apollo: A History of Manned Lunar Spacecraft. NASA History Series. Washington, D.C.: Scientific and Technical Information Office, NASA. LCCN 79001042. NASA SP-4205. Retrieved July 8, 2013.
  • Cadbury, Deborah (2006). Space Race: The Epic Battle Between America and the Soviet Union for Dominion of Space. New York: HarperCollins. ISBN 978-0-06-084553-7. LCCN 2005052693.
  • Murray, Charles A.; Cox, Catherine Bly Cox (1989). Apollo: The Race to the Moon (1st Touchstone ed.). New York: Simon & Schuster. ISBN 978-0-671-70625-8. LCCN 89006333.
  • Neufeld, Michael J. (2007). Von Braun: Dreamer of Space, Engineer of War. New York: Alfred A. Knopf. ISBN 978-0-307-26292-9.
  • Orloff, Richard W.; Harland, David M. (2006). Apollo: The Definitive Sourcebook. Chichester, UK: Praxis Publishing Company. ISBN 978-0-387-30043-6.
  • Reynolds, David West (2002). Apollo: The Epic Journey to the Moon (1st ed.). New York: Harcourt. ISBN 0-15-100964-3. LCCN 2001051930.
  • Seamans, Robert C. (2005). Project Apollo: The Tough Decisions. Washington, DC: NASA. ISBN 978-0-16-074954-4.

External links

 
Wikimedia Commons has media related to Apollo 4.

April 17, 2023
apollo, november, 1967, also, known, uncrewed, first, test, flight, saturn, launch, vehicle, rocket, that, eventually, took, astronauts, moon, space, vehicle, assembled, vehicle, assembly, building, first, launched, from, kennedy, space, center, florida, ascen. Apollo 4 November 9 1967 also known as SA 501 was the uncrewed first test flight of the Saturn V launch vehicle the rocket that eventually took astronauts to the Moon The space vehicle was assembled in the Vehicle Assembly Building and was the first to be launched from Kennedy Space Center KSC in Florida ascending from Launch Complex 39 where facilities built specially for the Saturn V had been constructed Apollo 4The first flight of a Saturn V launch vehicleMission typeUncrewed Earth orbital CSM flight A OperatorNASACOSPAR ID1967 113A command and service modules 1967 113B S IVB 1 SATCAT no 3032Mission duration8 hours 36 minutes 59 secondsOrbits completed3Spacecraft propertiesSpacecraftApollo CSM 017Apollo LTA 10RManufacturerNorth American RockwellLaunch mass36 856 kilograms 81 253 lb Start of missionLaunch dateNovember 9 1967 12 00 01 1967 11 09UTC12 00 01Z UTCRocketSaturn V SA 501Launch siteKennedy LC 39AEnd of missionRecovered byUSS BenningtonLanding dateNovember 9 1967 20 37 00 1967 11 09UTC20 38Z UTCLanding siteNorth Pacific Ocean30 06 N 172 32 W 30 100 N 172 533 W 30 100 172 533 Apollo 4 splashdown Orbital parametersReference systemGeocentricRegimeHighly elliptical orbitPerigee altitude 204 kilometers 110 nmi Apogee altitude18 092 kilometers 9 769 nmi Inclination31 9 degreesPeriod314 58 minutes initial EpochNovember 9 1967 2 Apollo program Apollo 1Apollo 5 Apollo 4 was an all up test meaning all rocket stages and spacecraft were fully functional on the initial flight a first for NASA It was the first time the S IC first stage and S II second stage flew It also demonstrated the S IVB third stage s first in flight restart The mission used a Block I command and service module modified to test several key Block II revisions including its heat shield at simulated lunar return velocity and angle The original launch date was planned for early 1967 but was delayed to November 9 because of a large number of problems with various elements of the spacecraft and difficulties during pre flight testing The need for additional inspections following the Apollo 1 fire which killed the first Apollo crew in January 1967 also contributed to delays These issues delayed the flight through much of 1967 The mission splashed down in the Pacific Ocean slightly less than nine hours after launch having achieved its objectives NASA considered the mission a complete success proving that the Saturn V worked an important step towards achieving the main objective of landing astronauts on the Moon and bringing them back safely before the end of the 1960s Contents 1 Background 2 Delays 3 Objectives 4 Equipment 5 Mission numbering 6 Public interest and media coverage 7 Launch and flight 8 Onboard cameras 9 Aftermath assessment and spacecraft location 10 References 10 1 Citations 10 2 Bibliography 11 External linksBackground EditIn 1961 U S President John F Kennedy proposed that his nation land an astronaut on the Moon by the end of the decade with a safe return to Earth 3 One of the early choices that had to be made to accomplish this goal was what launch vehicle to use NASA decided on the Saturn C 5 rocket a three stage launch vehicle based on rockets already in development In 1962 this was approved by NASA which contemplated an initial test launch in 1965 and a first crewed flight by 1967 leaving plenty of time to accomplish Kennedy s goal 4 In early 1963 NASA redesignated the C 5 as the Saturn V 5 After considerable debate within NASA it was decided in late 1962 that lunar missions would have a lunar orbit rendezvous mode whereby the complete Apollo spacecraft would be propelled towards lunar orbit by the third stage of the launch vehicle the S IVB Once in lunar orbit the astronauts who would land would enter what was then known as the Lunar Excursion Module which would separate from the rest of the spacecraft land and after taking off again be discarded once the crew had transferred back The remainder of the vehicle would then return to Earth 6 The launch facilities under development would not be sufficient for the new launch vehicle and in 1962 NASA announced plans for a new complex on the Florida coast from which the Apollo lunar missions could be launched 7 This was dubbed the Launch Operations Center but after Kennedy s assassination in November 1963 was renamed the John F Kennedy Space Center KSC 8 Apollo 4 was the first flight from KSC and the first using Launch Complex 39 LC 39 there built to accommodate the Saturn V 9 The first three flights carrying Apollo equipment were launched using Saturn IBs This smaller launch vehicle did not use the facilities at KSC but issues resolved by Saturn IB flights would be valid for those to be launched by the Saturn V Both the Saturn IB and the Saturn V would use a S IVB though the IB would use it as its second final stage rather than the third stage as on the Saturn V Thus many of the flight qualifications for the payload the Saturn V would carry could be resolved without having to expend one of the large launch vehicles 10 In addition to flight qualifying the hardware it was necessary to prove that the ground systems at KSC could successfully launch a Saturn V before risking the lives of astronauts on one 11 Three Saturn IB launches in order of launch AS 201 AS 203 and AS 202 took place in 1966 all were successful According to Charles D Benson and William B Flaherty in their history of KSC The Apollo Saturn IB launches of 1966 represented important gains for NASA s launch team LC 34 and LC 37 testbeds for automated checkout were found wanting In the twenty months between AS 201 and SA 501 Apollo 4 KSC corrected the major automation problems Without these trial and error advances SA 501 the toughest launch in Apollo s history would have been far more difficult 12 Delays Edit Apollo 4 inside the VAB In January 1965 Major General Samuel C Phillips the Apollo Program Director scheduled SA 501 the first test flight of the Saturn V for January 1967 This left little spare time for delay especially since two additional Saturn V launches were planned to follow in 1967 13 Many Apollo officials lacked confidence in the proposed launch date and these misgivings proved accurate After an explosion involving a liquid oxygen line flowing to LC 39 from which SA 501 was to be launched there was a potential for a delay of several weeks 14 North American Aviation was the contractor for both the S II Saturn V second stage and the Apollo command and service module CSM spacecraft NASA had been experiencing problems with North American s schedule cost and quality performance on both programs severe enough that Phillips led a team to North American s facility in California in November and December 1965 to investigate matters and recommend solutions to the program management problems He published his findings in a report to his supervisor George Mueller 15 Technicians found cracks in the S II delaying its test firings prior to acceptance by NASA As North American worked to fix the S II parts of the rocket began to arrive at KSC beginning with the S IVB on August 14 1966 by Pregnant Guppy aircraft and followed closely by the first stage S IC on September 12 by barge A spool shaped spacer that took the place of the S II allowed NASA to stack the vehicle as its checkout proceeded in the Vehicle Assembly Building VAB With the S II still not arrived by November 1966 it had originally been planned for July NASA planned January 1967 for its arrival with launch three months later The CSM arrived on December 24 1966 with the S II arriving on January 21 1967 Last to arrive was the aft interstage the structure between the first and second stages on January 31 14 The Apollo 1 fire on January 27 1967 which killed three astronauts during a launch pad test threw NASA s schedules into further question even though SA 501 was uncrewed NASA officials wanted to closely examine its CSM NASA had planned to restack the vehicle once this was done 14 but instead the inspections that took place found a total of 1 407 errors in the spacecraft 14 Inspectors found many haphazardly routed and skinned wires prime material for short circuits 16 The Apollo 4 launch vehicle right is rolled out from the Vehicle Assembly Building far left past the Mobile Servicing Structure Other problems were discovered such as an extra out of place bolt in one of the J 2 engines NASA was concerned not only with retrieving the surplus hardware but also with discovering how it got there A meeting in March 1967 with Phillips in attendance disclosed twelve hundred problems with the Saturn V which the technicians proposed to deal with at the rate of eighty per day 17 While the CSM was undergoing repairs the spacer was removed from the vehicle stack and the S II positioned On May 24 it was announced that the S II would be removed for inspection following the discovery of hairline cracks in another S II then being constructed this work being completed by mid June after which the CSM was also returned to the stack the first time the launch vehicle and spacecraft had been fully assembled It was rolled out to LC 39 on August 26 1967 14 where it was joined by the Mobile Servicing Structure that allowed access to the launch vehicle and spacecraft two days later also transported by crawler 18 This was the first time a NASA spacecraft had been assembled away from its launch site something allowing protection from Florida s hot and humid climate for equipment and personnel 19 The countdown demonstration test had been scheduled for September 20 but was soon rescheduled for the 25th and did not begin until the evening of the 27th By October 2 another two days had been lost to delays but by October 4 it reached launch minus 45 minutes Then a computer failed and the count reset to minus 13 hours before launch resumed on October 9 More computer and equipment problems appeared By then the launch team was exhausted and a two day break was declared The test was completed on October 13 20 meaning that it took three weeks rather than the expectation of a week or slightly over With world attention on the launch NASA public relations head Julian Scheer brought the skeptical questions from the media as to whether Apollo 4 would ever fly to the attention of NASA Administrator James E Webb leading to a heated meeting in which Webb said he would announce the launch date when he wanted to 21 These difficulties provided the launch crew with valuable experience but meant that Apollo 4 could not be launched at the earliest until November 7 A flight readiness review on October 19 cleared Apollo 4 for launch assuming the remaining tests and modifications were satisfactorily completed 20 Concerned about the potential for leaks in the Teflon seal rings and drain valves of the liquid oxygen tanks on board the vehicle due to the long time it had been sitting on the launch pad in the Florida sun on November 2 Phillips postponed the launch until November 9 21 Objectives EditThe purpose of Apollo 4 together with the Saturn V s other uncrewed test flight Apollo 6 was to qualify the launch vehicle the Apollo spacecraft and the ground systems for the crewed lunar landing missions that would follow In addition to being the first flight of the Saturn V Apollo 4 marked the first flight for two of its stages the S IC first stage and the S II second stage the S IVB had flown as part of the Saturn IB 11 22 Objectives for the Apollo 4 mission were to gain flight data on the Saturn V and spacecraft structural integrity and mutual compatibility including on flight loads and during the separations as each Saturn V stage was exhausted and was discarded NASA also wanted data on subsystem operations including the emergency detection subsystem and sought to evaluate the Apollo CM s heat shield under conditions simulating a return from a lunar mission 23 NASA was also seeking to test the restart capability of the S IVB in space 24 These objectives would all be achieved 25 Equipment Edit CSM 017 is moved into position Apollo 4 carried CSM 017 a Block I design of the command and service modules meant for testing and for Apollo s early Earth orbit flights Unlike the Block II spacecraft which would go to the Moon it lacked the capability to dock with a lunar module LM 26 CSM 017 was made up of command module CM 017 and service module SM 020 27 CM 017 was the second fully functional CM to be delivered to NASA the first CM 012 was designated for Apollo 1 and was severely damaged in the fire 16 SM 020 was originally to be used in CSM 020 slated for the second Saturn V test but this changed after SM 017 which was intended to be part of CSM 017 was damaged in an explosion and was scrapped 27 Several significant Block II modifications were made to CSM 017 for certification purposes since no Block II spacecraft would fly without a crew 26 These included upgrading the heat shield to Block II standards using a Block II CM to SM umbilical connector and installing Block II style VHF and S band antennae Additionally there were modifications to the CM s hatch 28 The fact that the spacecraft hatch could not be readily opened in case of emergency had trapped the Apollo 1 astronauts in the fire that took their lives and led to a redesign of the hatch The new hatch was not scheduled to fly until the second Saturn V test Apollo 6 but its seals were to be flight qualified on Apollo 4 the hatch window was replaced with a test panel simulating the seals and exterior heat shield The heat shield was upgraded to Block II standards since Apollo 4 s high speed re entry into Earth s atmosphere was intended to simulate a return from the Moon 29 Special equipment had been installed to allow Mission Control to operate the CSM s systems remotely and there was a camera that would automatically take pictures out of one of the CM s windows on its final orbit 30 Since Apollo 4 carried no crew the CM lacked couches controls and displays 31 A Lunar Module Test Article LTA 10R was carried and remained inside the Spacecraft LM Adapter numbered as SLA 8 on the third stage of the Saturn V throughout its flight The LTA consisted of a flight type descent stage lacking landing gear with its fuel and oxidizer tanks containing a mixture of water glycol and freon There was an ascent stage mockup atop it made of aluminum with ballast and having no flight systems The SLA and LTA were instrumented to measure stress on them as the Saturn V made its way to orbit 27 32 LTA 10R would be destroyed when the S IVB re entered the atmosphere 33 Apollo 4 on the launch pad Apollo 4 was the first flight of a Saturn V At the time it was the largest launch vehicle to ever attempt a flight 34 This mission was the first time NASA used all up testing requiring that each stage of the launch vehicle work and that the vehicle carry a working spacecraft a decision that goes back to late 1963 35 Mueller the head of the NASA Office of Manned Space Flight at that time was a systems engineer who previously worked on military missile projects He had recognized that all up testing was successfully used to rapidly develop the Air Force s Minuteman ICBM program and thought it could be used to meet Apollo s schedule 36 In a 1963 memo he ordered that both the first Saturn IB flight and the first Saturn V flight be uncrewed that each stage be fully functional and that each carry a working spacecraft The second flight of each type of rocket would also be an uncrewed test flight and the third flight would be crewed 37 Previously the way Wernher von Braun s team at the Marshall Space Flight Center tested new rockets was by testing each stage incrementally 36 The Saturn V would be tested all at once with all stages live and fully flight worthy including an Apollo CSM 35 This decision dramatically streamlined the program s test flight phase eliminating four missions but it required everything to work properly the first time 35 Apollo program managers had misgivings about all up testing but agreed to it with some reluctance since incremental component tests would inevitably push the lunar landing mission past the 1970 goal 38 Mission numbering EditApollo 4 was the first mission to fly under the official Apollo mission numbering scheme approved by Mueller on April 24 1967 the planned first crewed flight in preparation for which three astronauts had died was retroactively designated Apollo 1 as the widows of the crew members had requested Although three uncrewed Saturn IB flights had already occurred only two had contained an Apollo spacecraft AS 203 carried only the aerodynamic nose cone Mueller resumed the numbering sequence at Apollo 4 without designating an Apollo 2 or 3 39 40 Public interest and media coverage EditVIPs swarmed to KSC in the days before the launch Von Braun arrived on November 6 scheduled for an exclusive executive dinner and conference that evening NASA executives figures from industry Congressional leaders and diplomats also came for the launch 41 Each NASA center involved had a list of VIP guests as did NASA headquarters in Washington and duplications were sorted out so each center s director could invite guests personally They watched the launch from uncovered bleachers near the VAB NASA set up press headquarters in Cocoa Beach where media representatives were accredited and offered tours of KSC to visiting journalists as well as a half hourly shuttle service NASA provided extensive telephone facilities for the media at the press site near LC 39 at their expense KSC workers and their dependents watched the launch from near their work assignments 42 In addition 43 employees of contractors who had performed in an exemplary manner were selected as Manned Flight Awareness honorees given a VIP tour of KSC a social evening in which six astronauts participated and a view of the launch 43 Apollo 4 being the first flight of the Saturn V gained intense media coverage and writers struggled to convey to the public the size of the launch vehicle stating that it would tower well over the Statue of Liberty and be thirteen times as heavy North American in a handout to the media noted that the 3000 ton Saturn V comfortably outweighed a good sized navy destroyer 44 On the day before launch Mueller Phillips von Braun Deputy Administrator Robert C Seamans and Kennedy Space Center Director Kurt Debus 45 held an outdoor press conference for more than a thousand journalists including some from the Soviet Union with the Saturn V in the background 46 Launch and flight EditOur building s shaking The roar is terrific The building s shaking This big glass window is shaking We re holding it with our hands Look at that rocket go Into the clouds at 3 000 feet The roar is terrific Look at it going You can see it Part of our roof has come in here Walter Cronkite November 9 1967 31 47 On November 6 1967 at 10 30 pm EST 03 30 November 7 UTC 48 the 56 1 2 hour countdown sequence began with propellant loading In total there were 89 trailer truck loads of liquid oxygen 28 trailer loads of LH2 liquid hydrogen and 27 rail cars of RP 1 highly refined kerosene This time the problems encountered were few and minor 43 and did not delay the launch due to the use of built in holds in the countdown during which time accumulated delays were made good 49 Apollo 4 launched on November 9 at 7 00 am EST noon UTC Eight seconds before liftoff the five F 1 engines ignited sending tremendous amounts of noise across Kennedy Space Center Even though the launch pads at LC 39 were more than five kilometers three miles from the Vehicle Assembly Building the sound pressure was much stronger than expected and buffeted the VAB Launch Control Center and press buildings Dust was dislodged from the ceiling of the Launch Control Center and formed a layer on the consoles of mission controllers 50 Dr William Donn of Columbia University described the blast as one of the loudest noises natural or artificial in human history excepting nuclear explosions 51 CBS s commentator Walter Cronkite and producer Jeff Gralnick put their hands on their trailer s observation window to stop it from shattering as ceiling tiles fell from above Cronkite found Apollo 4 to be the most frightening space mission he covered 52 Mission controllers watch Apollo 4 climb to orbit The launch placed the S IVB and CSM into a nearly circular 190 kilometer 100 nmi orbit a nominal parking orbit that would be used on the lunar missions After two orbits in a simulation of the trans lunar injection burn that would take later Apollo missions towards the Moon 53 the S IVB s first in space re ignition put the spacecraft into an elliptical orbit with an apogee of 17 218 kilometers 9 297 nmi and a perigee deliberately aimed 84 6 kilometers 45 7 nmi below the Earth s surface this would ensure both a high speed atmospheric re entry of the command module and destruction after re entry of the S IVB Shortly after this burn the CSM separated from the S IVB and fired its service module engine to adjust the apogee to 18 092 kilometers 9 769 nmi After passing apogee the service module engine fired again for 281 seconds to increase re entry speed to 11 168 meters per second 36 639 ft s at an altitude of 120 kilometers 400 000 ft and a flight path angle of 6 93 degrees simulating conditions on a return from the Moon 54 The CM landed approximately 8 6 nautical miles 16 km from the target landing site northwest of Midway Island in the North Pacific Ocean Its descent was visible from the deck of the aircraft carrier USS Bennington the prime recovery ship which within two hours had recovered it and one of its parachutes the first time an Apollo parachute had been recovered for inspection The spacecraft was brought to Hawaii for deactivation after which it was taken to North American s facility in Downey California for post flight analysis 55 Onboard cameras Edit source source source source source source source source source source source source source source Two cameras captured the staging event one clip is shown The first stage falls away followed by the interstage ring Two motion picture cameras were aboard Apollo 4 These were mounted on the Saturn V so as to capture the separation of the first stage and interstage from the launch vehicle They would then be ejected descend to the Atlantic Ocean in pods with parachutes and radio beacons and be recovered about 870 kilometers 470 nmi downrange of KSC 56 Earth photographed with the command module camera The command module contained an automatic 70 mm film camera which captured photographs of almost the entire Earth For a period of two hours and thirteen minutes as the craft approached and passed its apogee a total of 755 color images were taken through the Command Pilot s left hand forward looking window at altitudes ranging from 13 510 to 18 092 kilometers 7 295 to 9 769 nmi These were the color images taken from the highest altitude at that time The photographs were not of sufficient resolution to obtain detailed scientific data but were still of interest to those involved in the Earth sciences 24 57 Aftermath assessment and spacecraft location EditTechnically managerially and psychologically Apollo 4 was an important and successful mission especially in view of the number of firsts it tackled It was the first flight of the first and second stages of the Saturn V the S IVB stage had flown on the Saturn IB launch vehicles the first launch of the complete Saturn V the first restart of the S IVB in orbital flight the first liftoff from Complex 39 the first flight test of the Block II command module heatshield the first flight of even a simulated lunar module and so on The fact that everything worked so well and with so little trouble gave NASA a confident feeling as Phillips phrased it that Apollo was on the way to the moon Courtney G Brooks James M Grimwood and Loyd S Swenson Chariots for Apollo A History of Manned Lunar Spacecraft 1979 26 All Apollo 4 launch vehicle and spacecraft systems performed satisfactorily On the climb to orbit each of the Saturn V s three stages burned for slightly longer than expected This left the craft in an orbit roughly one kilometer higher than expected something well within tolerance A burn eleven seconds longer than planned meant that the CM entered the Earth s atmosphere slightly faster and at a shallower angle than planned but still within tolerance This discrepancy happened not because of the performance of the guidance system which was exemplary but because the burn had been controlled from Earth The CM s environmental control system kept the ship s cabin within acceptable temperatures and pressures throughout the mission increasing by only 5 6 C 10 F during atmospheric entry 58 59 President Lyndon Johnson described the launch The whole world could see the awesome sight of the first launch of what is now the largest rocket ever flown This launching symbolizes the power this nation is harnessing for the peaceful exploration of space 51 Von Braun spoke of the mission as an expert launching all the way through from lift off exactly on time to performance of every single stage 43 In his history of the Saturn V Roger E Bilstein wrote that the flawless mission of Apollo 4 elated the entire NASA organization everyone looked ahead with buoyant spirits 60 Mueller stated that Apollo 4 dramatically increased the confidence of many and showed it should be possible for astronauts to land on the Moon by mid 1969 43 Apollo 6 the second flight of the Saturn V was launched on April 4 1968 Although the Saturn V s stages gave more trouble than on Apollo 4 the mission experienced pogo oscillation during its first stage and had an early second stage engine shutdown 61 it was decided that a third uncrewed flight was unnecessary The Saturn V flew with a crew for the first time on Apollo 8 62 A Saturn V launched astronauts into space and except for Apollo 9 towards the Moon on each of the Apollo missions that followed 63 In January 1969 CM 017 was transferred to the Smithsonian Institution 64 As of 1978 it was on display at the North Carolina Museum of Life and Science 65 The CM was subsequently put on public display at NASA s Stennis Space Center where it remained until 2017 It is currently on display at Stennis Space Center s visitor center the Infinity Science Center in Pearlington Mississippi 66 References EditCitations Edit Orloff amp Harland 2006 p 124 McDowell Jonathan Master Satellite List Jonathan s Space Pages Retrieved March 23 2014 Apollo 11 Mission Overview NASA December 21 2017 Retrieved February 14 2019 Orloff amp Harland 2006 pp 21 22 Bilstein 1996 p 60 Orloff amp Harland 2006 pp 25 26 Bilstein 1996 p 70 Orloff amp Harland 2006 p 34 Press Kit pp 30 31 Benson Charles D Faherty William Barnaby 1978 The Apollo Saturn IB Space Vehicle Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 17 3 a b Saturn V evaluation p xxxviii Benson Charles D Faherty William Barnaby 1978 More Launches of the Saturn IB Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 17 7 Benson Charles D Faherty William Barnaby 1978 500 F A Dress Rehearsal Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 15 4 a b c d e Benson Charles D Faherty William Barnaby 1978 Delay after Delay after Delay Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 19 3 NASA Apollo Mission Apollo 1 Phillips Report NASA History Division a b Giblin Kelly A Spring 1998 Fire in the Cockpit American Heritage of Invention amp Technology American Heritage Publishing 13 4 Archived from the original on November 20 2008 Bilstein 1996 p 352 Press Kit p 28 Press Kit p 31 a b Benson Charles D Faherty William Barnaby 1978 More Delays for AS 501 Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 19 5 a b Bilstein 1996 p 353 Orloff amp Harland 2006 p 75 Press Kit p 1 a b Dornbach John E February 1968 Analysis of Apollo AS 501 Mission Earth Photography PDF Houston TX Manned Spacecraft Center NASA NASA TM X 58015 Retrieved July 8 2013 Orloff amp Harland 2006 pp 127 137 a b c Brooks 1979 Apollo 4 and Saturn V Archived November 7 2016 at the Wayback Machine Ch 9 5 a b c Apollo Skylab ASTP and Shuttle Orbiter Major End Items PDF NASA March 1978 p 10 15 Press Kit p 19 Press Kit pp 2 19 20 Press Kit pp 18 19 a b Speed Richard November 11 2019 That roar is terrific look at that rocket go It s been 52 years since first Saturn V left the pad The Register Retrieved September 5 2021 Press Kit p 20 Press Kit p 3 Reynolds 2002 pp 81 82 a b c Cadbury 2006 p 274 a b Murray amp Cox 1989 pp 156 162 Bilstein 1996 p 349 Neufeld 2007 pp 388 389 400 Ertel Ivan D Newkirk Roland W et al 1969 1978 Part 1 H Preparation for Flight the Accident and Investigation March 16 through April 5 1967 The Apollo Spacecraft A Chronology Vol IV Washington D C NASA LCCN 69060008 OCLC 23818 NASA SP 4009 Retrieved March 3 2011 Apollo 11 30th Anniversary Manned Apollo Missions NASA History Office 1999 Archived from the original on February 20 2011 Retrieved March 3 2011 Bilstein 1996 p 355 Benson Charles D Faherty William Barnaby 1978 Press VIPs Tourists Dependents Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 19 7 a b c d Benson Charles D Faherty William Barnaby 1978 The Launch of Apollo 4 Moonport A History of Apollo Launch Facilities and Operations NASA NASA SP 4204 Retrieved September 28 2021 a href Template Cite book html title Template Cite book cite book a CS1 maint url status link Ch 19 6 Bilstein 1996 p 354 Apollo 4 pre launch press conference NASA November 8 1967 Seamans 2005 pp 78 80 Brinkley 2012 p 369 Orloff amp Harland 2006 p 137 Orloff amp Harland 2006 p 122 Wilford John Noble November 10 1967 Saturn V places Apollo in Orbit in Smooth Test PDF The New York Times Retrieved February 22 2021 a b Seamans 2005 p 80 Brinkley 2012 p 368 Orloff amp Harland 2006 p 126 Orloff amp Harland 2006 pp 126 127 Orloff amp Harland 2006 p 127 Press Kit p 12 Davis Jason May 23 2018 The curious case of the Apollo 4 Earth images The Planetary Society Retrieved September 7 2021 Orloff amp Harland 2006 pp 124 127 Press Kit p 43 Bilstein 1996 p 359 Orloff amp Harland 2006 pp 153 154 Orloff amp Harland 2006 pp 55 59 Orloff amp Harland 2006 pp 572 573 Command Module Apollo 4 airandspace si edu Retrieved July 19 2020 Apollo Skylab ASTP and Shuttle Orbiter Major End Items PDF NASA March 1978 p 15 Pearlman Robert Z October 31 2017 Apollo 4 Capsule From 1st Saturn V Launch Lands at Infinity Science Center www space com Retrieved July 19 2020 Bibliography Edit Apollo 4 Press Kit Washington D C NASA 1968 Saturn V Launch Vehicle Flight Evaluation Report AS 501 Apollo 4 Mission PDF George C Marshall Space Flight Center NASA January 15 1968 MPR SAT FE 68 1 Archived from the original PDF on March 3 2016 Retrieved July 8 2013 Benson Charles D Faherty William Barnaby 1978 Moonport A History of Apollo Launch Facilities and Operations NASA History Series Washington D C Scientific and Technical Information Office NASA LCCN 77029118 NASA SP 4204 Retrieved July 8 2013 Bilstein Roger E 1996 Stages to Saturn A Technological History of the Apollo Saturn Launch Vehicles NASA History Series Washington D C NASA History Office NASA ISBN 978 0 16 048909 9 LCCN 97149850 NASA SP 4206 Retrieved July 8 2013 Brinkley Douglas 2012 Cronkite New York HarperCollins ISBN 978 0 06 137426 5 LCCN 2011051467 Brooks Courtney G Grimwood James M Swenson Loyd S Jr 1979 Chariots for Apollo A History of Manned Lunar Spacecraft NASA History Series Washington D C Scientific and Technical Information Office NASA LCCN 79001042 NASA SP 4205 Retrieved July 8 2013 Cadbury Deborah 2006 Space Race The Epic Battle Between America and the Soviet Union for Dominion of Space New York HarperCollins ISBN 978 0 06 084553 7 LCCN 2005052693 Murray Charles A Cox Catherine Bly Cox 1989 Apollo The Race to the Moon 1st Touchstone ed New York Simon amp Schuster ISBN 978 0 671 70625 8 LCCN 89006333 Neufeld Michael J 2007 Von Braun Dreamer of Space Engineer of War New York Alfred A Knopf ISBN 978 0 307 26292 9 Orloff Richard W Harland David M 2006 Apollo The Definitive Sourcebook Chichester UK Praxis Publishing Company ISBN 978 0 387 30043 6 Reynolds David West 2002 Apollo The Epic Journey to the Moon 1st ed New York Harcourt ISBN 0 15 100964 3 LCCN 2001051930 Seamans Robert C 2005 Project Apollo The Tough Decisions Washington DC NASA ISBN 978 0 16 074954 4 External links Edit Wikimedia Commons has media related to Apollo 4 Apollo 4 at NASA s National Space Science Data Center The Apollo 4 Mission is available for free download at the Internet Archive Portals Solar System Space Spaceflight Retrieved from https en wikipedia org w index php title Apollo 4 amp oldid 1142204680, wikipedia, wiki, book, books, library,

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