- A-101
Infobox Space mission
insignia = Apollo program insignia.png
mission_name = A-101 (Saturn-Apollo 6)
sign = A-101 (SA-6)
launch_pad =Cape Canaveral
launch =May 28 ,1964
17:07:00 UTC
Complex 37B
landing =June 2 ,1964
~01:00:00 UTC
duration = ~3 days 8 hours
orbits = 54
apogee = 127 mi (204 km)
perigee = 111 mi (179 km)
period = 88.5 min
inclination = 31.8°
distance = 1,357,466 mi
(2,184,630 km)
mass = 38,900 lb (17,650 kg)A-101 [ [http://science.ksc.nasa.gov/history/apollo/sa-6/sa-6.html NASA: "A-101"] ] , also SA-6 [ [http://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=1964-025A NSSDC: "SA-6"] ] was the first Saturn rocket launch to carry a Boilerplate Apollo spacecraft in 1964.
Boilerplate
The first five launches of the Saturn I had carried
Jupiter-C nosecone that were a proven design allowing engineers to focus on the rocket. However, in order to get to the Moon, it had to be shown that the rocket could actually launch the Apollo spacecraft shape. Therefore, on A-101 the rocket carried a boilerplate spacecraft and a dummyLaunch Escape System (LES). The Boilerplate BP-13 duplicated the size,weight , shape, andcenter of gravity of a manned Apollo command module.This allowed it to be instrumented with 116 measuring devices so that engineers could see the strain, pressure, and acceleration experienced by the spacecraft, which they hoped would confirm their calculations.
Flight
It took three attempts to get the rocket off the pad. The first launch attempt was scrubbed after the
liquid oxygen damaged a wire mesh screen during a test, causing fuel contamination. The second attempt was scrubbed after the rocket's guidance system overheated when a compressor failed in the air conditioning.It finally lifted off on
28 May from LC-37B. There had been several delays during the count as liquid oxygen vapors obscured an optical window in the SA-6's instrument unit, so that a ground-basedtheodolite could not see it. This theodolite was needed for launch to proceed. In the end this requirement was removed from the computer by engineers to allow the launch to proceed as it was not critical. The mission used Apollo Boilerplate BP-13.The ascent was normal up to 76.9 seconds after launch when engine number eight shut off early. This was not planned as on SA-4 but, pleasingly for engineers, the rocket compensated perfectly and burned the first stage for 2.7 more seconds than planned. The first stage separated and the second stage ignited. Ten seconds later the LES was jettisoned as planned (any explosion would not be catastrophic to need its ability to pull the spacecraft away at high speed). Also jettisoned from the first stage were eight film cameras that observed separation of the stages.
The second stage cut off at 624.5 seconds after launch (1.26 seconds earlier than predicted), with the stage and boilerplate in a 182 km by 227 km orbit. It continued to transmit data for four orbits when the batteries failed. Both stayed in orbit for 54 orbits, re-entering the atmosphere east of
Canton Island in thePacific Ocean onJune 1 .Engine failure cause
Engineers were quick to find the cause of the failure of engine number eight. The teeth on one of the gears in the
turbopump were stripped off. This did not cause any delays in the next launches as engineers had already decided that the gear design was inferior and were planning to change it for the next launch. This was the first and only problem encountered with an H-1 engine during a flight.References
External links
* [http://www.hq.nasa.gov/office/pao/History/SP-4009/cover.htm The Apollo Spacecraft: A Chronology]
*http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1964-025A
* [http://www.hq.nasa.gov/office/pao/History/SP-4204/cover.html Moonport: A History of Apollo Launch Facilities and Operations]
*http://science.ksc.nasa.gov/history/apollo/sa-6/sa-6.html
* [http://history.nasa.gov/SP-4206/sp4206.htm Stages to Saturn]
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