Apollo Lunar Module
The Apollo Lunar Module (LM) is the spidery-looking landing vehicle on the moon. It was built for the US Apollo program to carry a crew of two from lunar orbit to the surface and back.
 Apollo 16 LM Orion on the lunar surface | |
| Manufacturer | Grumman Aircraft |
|---|---|
| Designer | Thomas J. Kelly |
| Country of origin | United States |
| Operator | NASA |
| Applications | Manned lunar landing |
| Specifications | |
| Design life | 75 hours (Extended) |
| Launch mass |
|
| Dry mass |
|
| Crew capacity | 2 |
| Dimensions | 23 feet 1 inch (7.04 m) high 31 feet (9.4 m) wide 31 feet (9.4 m) deep overall, landing gear deployed |
| Volume | 235 cubic feet (6.7 m3) |
| Power | Batteries |
| Regime | Lunar |
| Production | |
| Status | Retired |
| Built | 15 |
| Launched | 10 |
| Operational | 10 |
| Failed | 0 |
| Lost | 0 |
| First launch | January 22, 1968 |
| Last launch | December 14, 1972 |
| Last retirement | December 15, 1972 |
  Apollo LM diagram | |
The LM was the last of the Apollo “hardware” to be developed. Its start had been delayed while NASA made up its mind to take the lunar-orbit meeting approach and thus require a vehicle like the LM for a landing. A contract with the prime builder was signed on January, 1963, almost two years after the Apollo project began. The LM was tested several times in space.[1] Finally, on July 20, 1969 the Apollo 11 LM Eagle made the first manned lunar landing.
As Apollo missions progressed, Apollo 12, 14, 15, 16, 17 had lunar landings using their LMs. Apollo 13 had a terribly dangerous accident when an oxygen tank exploded. The Apollo 13 Lunar module, called Aquarius, played an unexpected role in saving the lives of the three astronauts after the explosion.[2]
Specifications
change
The LM was consisted of an ascent stage and decent stage.
Descent stage
changeThis was the unmanned lower part of the LM. it looked like octagonal-shaped. It was made of aluminum alloy and had four legs for landing. It had a descent rocket engine, and batteries and various supplies and scientific equipment to be used when landing on the moon and during the astronauts’ stay on the moon.
To land on the moon, the descent engine would be fired to begin the LM’s drop from 110 kilometres (68 miles) out in lunar orbit down toward the moon. LM could descend vertically and hover above the surface of moon. After the two men finished their stay on the surface, the ascent stage, sitting on the descent stage, would use its ascent engine firing to lift itself off the moon.
Ascent stage
changeThis was the roundish upper half of the LM, the command center and crew cabin as well as the launching rocket for leaving the moon.
To save weight, there were no seats for the men. They would stand, loosely held in place by straps. In front and on either side of them were control panels for the LM’s guidance, communication, environment and propulsion systems. On the left side, there was a window by which commander could look out to steer the LM. Overhead in the middle section was the 90 centimetres (35 inches) of diameter hatch where the astronauts transferred to and from the Command Module when two vehicles were linked. LM’s ascent rocket to meet Command Module was below the deck of the midsection. Although ascent rocket was small, it was sufficient because the moon’s weak gravity – one-sixth that of earth’s – meant that the LM would not require a strong push to rise from the lunar surface.[source?]
First flight of Lunar Module
changeOn Monday, January 22, 1968, a 16-ton unmanned Lunar Module surrounded by a protective shield stood on top of a two-stage Saturn 1-B rocket called Apollo 5. This flight was made to do two important tests. One was to check separating stage from main rocket. The second was to check test firing of the descent engine, but this mission did not succeed. The Apollo 5 test ended after eight hours, and the LM remained in earth orbit. It eventually dropped into the atmosphere and burned up.
Related pages
changeReferences
change- ↑ Moon Race: The History of Apollo DVD, Columbia River Entertainment (Portland, Oregon, 2007)
- ↑ Cass, Stephen (April 1, 2005). "Houston, we have a solution". IEEE. Retrieved August 30, 2019.
Other websites
change- 50 Years Ago: The Apollo Lunar Module
- Google Moon overview of Apollo landing sites
- NASA catalog: Apollo 14 Lunar Module
- Demonstration of the Lunar Excursion Module and explanation of its systems
- Space/Craft Assembly & Test Remembered
- We Called It 'The Bug' Archived 2010-12-25 at the Wayback Machine,
- Apollo 11 LM Structures handout for LM-5 (PDF)
- Apollo Operations Handbook, Lunar Module (LM 10 and Subsequent), Volume One. Subsystems Data (PDF)
- Apollo Operations Handbook, Lunar Module (LM 11 and Subsequent), Volume Two. Operational Procedures
- Apollo 15 LM Activation Checklist for LM-10 Archived 2013-03-02 at the Wayback Machine
- Lunar module launch Archived 2011-09-28 at the Wayback Machine video