Table of Contents
- 1 What was the computer used for Apollo 11?
- 2 Why is Apollo 11 considered to be the most important event in space history?
- 3 Why was the Apollo Guidance Computer Needed?
- 4 What did the Apollo guidance computer do?
- 5 What was the purpose of the Apollo Guidance Computer?
- 6 What are the trajectory parameters used in the Apollo 11 flight plan?
What was the computer used for Apollo 11?
Apollo Guidance Computer
On board Apollo 11 was a computer called the Apollo Guidance Computer (AGC). It had 2048 words of memory which could be used to store “temporary results” – data that is lost when there is no power. This type of memory is referred to as RAM (Random Access Memory).
Why is Apollo 11 considered to be the most important event in space history?
Lunar Landing Mission Apollo 11 was the first manned mission to land on the Moon. The first steps by humans on another planetary body were taken by Neil Armstrong and Buzz Aldrin on July 20, 1969.
What is the significance of the Apollo 11 mission in 1969?
Apollo 11 (July 16–24, 1969) was the spaceflight that first landed humans on the Moon. Commander Neil Armstrong and lunar module pilot Buzz Aldrin formed the American crew that landed the Apollo Lunar Module Eagle on July 20, 1969, at 20:17 UTC.
Where did Apollo 11 LEM crash?
After docking with the CSM, piloted by Michael Collins, at 21:34:00 UT, the LM was jettisoned into lunar orbit at 00:01:01 UT on 22 July. The fate of the LM is not known, but it is assumed that it crashed into the lunar surface sometime within the following 1 to 4 months.
Why was the Apollo Guidance Computer Needed?
Apollo’s computer used erasable merry cells to store intermediate results of calculations, data such as the location of the spacecraft, or as registers for logic operations. In Apollo, they also contained the data and routines needed to ready the computer for use when it was first turned on.
What did the Apollo guidance computer do?
The Apollo Guidance Computer (AGC) is a digital computer produced for the Apollo program that was installed on board each Apollo command module (CM) and Apollo Lunar Module (LM). The AGC provided computation and electronic interfaces for guidance, navigation, and control of the spacecraft.
Did you know facts about Apollo 11?
Interesting Facts
- 01Apollo 11 was the first mission that achieved a crewed moon landing.
- 02It took the spacecraft 76 hours to reach the moon.
- 03Neil Armstrong was the first person on the moon.
- 04Buzz Aldrin followed Armstrong 19 minutes later.
- 05The Apollo 11 spacecraft flew at 24,236 miles per hour.
How did the Apollo guidance computer work?
What was the purpose of the Apollo Guidance Computer?
Jump to navigation Jump to search. The Apollo Guidance Computer (AGC) was a digital computer produced for the Apollo program that was installed on board each Apollo Command Module (CM) and Lunar Module (LM). The AGC provided computation and electronic interfaces for guidance, navigation, and control of the spacecraft.
What are the trajectory parameters used in the Apollo 11 flight plan?
The trajectory parameters used in this Flight Plan are for July 16, 1969 launch, with a 72° launch azimuth and were supplied by Mission Planning and Analysis Division as defined by the Apollo Mission G Spacecraft Operational Trajectory. The Apollo 11 Flight Plan is under the configuration control of the Crew Proce- dures Control Board (CPCB).
Who is the co-ordinator of the Apollo 11 flight plan?
A. Guillory will act as co-ordinator for all proposed changes to the Apollo 11 Flight Plan. Any requests for additional copies or changes to the distribution lists of this document must be made in writing to Mr. W. J. North, Chief, Flight Crew Support Division, MSC, Houston, Texas.
What type of computer is used in the Apollo spacecraft?
Guidance and navigation computer used in Apollo spacecraft. The Apollo Guidance Computer (AGC) is a digital computer produced for the Apollo program that was installed on board each Apollo command module (CM) and Apollo Lunar Module (LM). The AGC provided computation and electronic interfaces for guidance, navigation, and control of the spacecraft.