Project Gemini
McDonnell Gemini spacecraft | ||
---|---|---|
Gemini spacecraft in orbit. | ||
Description | ||
Role: | Orbital spaceflight | |
Crew: | two; cmd pilot, pilot | |
Dimensions | ||
Height: | 18.6 ft | 5.67 m |
Diameter: | 10 ft | 3.05 m |
Volume: | 90 ft³ | 2.55 m³ |
Weights | ||
Reentry module: | 4,372 lb | 1,983 kg |
Retrograde module: | 1,303 lb | 591 kg |
Equipment module: | 2,815 lb | 1,277 kg |
Total: | 8,490 lb | 3 851 kg |
Rocket engines | ||
Retros (solid fuel) x 4: | 2,500 lbf ea | 11.12 kN |
Reentry Control System (N2O4/MMHH) x 16: | 25 lbf ea | 111 N |
OAMS (N2O4/MMHH) x 2: |
85 lbf ea | 378 N |
OAMS (N2O4/MMHH) x 6: |
100 lbf ea | 445 N |
OAMS (N2O4/MMHH) x 8: |
25 lbf ea | 111 N |
Performance | ||
Endurance: | 14 days | 206 orbits |
Apogee: | 250 miles | 402 km |
Perigee: | 100 miles | 160 km |
Spacecraft delta v: | 728 ft/s | 222 m/s |
Gemini spacecraft diagram | ||
Gemini spacecraft diagram (NASA) | ||
McDonnell Gemini Spacecraft |
Project Gemini was the second human spaceflight program of the United States of America. It operated between Projects Mercury and Apollo, with 10 manned flights occurring in 1965 and 1966. Its objective was to develop techniques for advanced space travel, notably those necessary for Project Apollo, whose objective was to land men on the Moon. Gemini missions included the first American extravehicular activity, and new orbital maneuvers included rendezvous and docking.
Gemini was originally seen as a simple extrapolation of the Mercury program, and thus early on was called Mercury Mark II. The actual program had little in common with Mercury and was in fact superior to even Apollo in some ways. (See Big Gemini.) This was mainly a result of its late start date, which allowed it to benefit from much that had been learned during the early stages of the Apollo project (which, despite its later launch dates, was actually begun before Gemini).
Its primary difference from Mercury was that the earlier spacecraft had all systems other than the reentry rockets situated within the capsule, to which access of nearly all was through the astronaut's hatchway, while Gemini had many power, propulsion, and life support systems in a detachable module like a huge bowl; many components in the capsule itself were reachable each through its own small access door. The original intention was for Gemini to land on solid ground instead of at sea, using a paraglider rather than a parachute, and for the crew to be seated upright controlling the forward motion of the craft before its landing. To facilitate this, the parachute cord did not attach just to the nose of the craft; there was an additional attachment point for balance near the heat shield. This cord was covered by a strip of metal between the doors. Early short-duration missions had their electrical power supplied by batteries; later endurance missions had the first fuel cells in manned spacecraft.
The "Gemini" designation comes from the fact that each spacecraft held two men, as "gemini" in Latin means "twins". Gemini is also the name of the third constellation of the Zodiac and its twin stars, Castor and Pollux.
Unlike Mercury, which could only change its orientation in space, the Gemini capsule could alter its orbit. It could also dock with the Agena Target Vehicle, which had its own large rocket engine, was used to perform large orbital changes. Gemini was the first American manned spacecraft to include an onboard computer, the Gemini Guidance Computer, to facilitate management and control of mission maneuvers. It was also unlike other NASA craft in that it used ejection seats, in-flight radar and an artificial horizon - devices borrowed from the aviation industry. Using ejection seats to push astronauts to safety was first employed by the Soviet Union in the Vostok craft manned by cosmonaut Yuri Gagarin.
Gemini was designed by a Canadian, Jim Chamberlin, formerly the chief aerodynamicist on the Avro Arrow fighter interceptor program with Avro Canada. Chamberlin joined NASA along with 25 senior Avro engineers after cancellation of the Arrow program, and became head of the U.S. Space Task Group’s engineering division in charge of Gemini. The main contractor was McDonnell, which had lost out on main contracts for the Apollo Project. McDonnell sought to extend the program by proposing a Gemini craft which could be used to fly a cislunar mission and even achieve a manned lunar landing earlier and at less cost than Apollo, but these proposals were rejected.
The Gemini program cost $5.4 billion dollars. See NASA Budget.
Announcement
The National Aeronautics and Space Administration (NASA) announced December 7, 1961, a plan to extend the existing manned space flight program by the development of a two-man spacecraft. The progam was first called Mercury Mark II. The program was officially designated Gemini on January 3, 1962.
Team
The Gemini program was managed by the Manned Spacecraft Center, Houston, Texas, under direction of the Office of Manned Space Flight, NASA Headquarters, Washington, D.C, Dr. George E. Mueller, Associate Administrator of NASA for Manned Space Flight, served as acting director of the Gemini program. William C. Schneider, Deputy Director of Manned Space Flight for Mission Operations, served as Mission Director on all Gemini flights beginning with Gemini V.
Program objectives
The Gemini Program was conceived after it became evident to NASA officials that an intermediate step was required between the projects Mercury and Apollo. The major objectives assigned to Gemini were:
- To subject two men and supporting equipment to long-duration flights, a requirement for projected later trips to the Moon or deeper space.
- To effect rendezvous and docking with other orbiting vehicles, and to maneuver the docked vehicles in space, using the propulsion system of the target vehicle for such maneuvers.
- To perfect methods of reentry and landing the spacecraft at a pre-selected land-landing point.
- To gain additional information concerning the effects of weightlessness on crew members and to record the physiological reactions of crew members during long-duration flights.
After 10 successful flights, the Gemini program clearly placed the United States in the lead over the Soviet Union in manned spaceflight. The flight of Gemini VIII concluded with the successful emergency recovery of the tumbling orbiting capsule piloted by Neil Armstrong and David Scott.
Gemini applications
Military
The United States Air Force had an interest in the system, and decided to use its own modification of the spacecraft as the crew vehicle for the Manned Orbital Laboratory. To this end, one of the unmanned Gemini spacecraft was refurbished and flown again atop a mockup of the MOL, sent into space by a Titan III-M. This was the first time a spacecraft went into space twice.
The USAF also had the notion of adapting the Gemini spacecraft for military applications, such as crude observation of the ground (no specialized reconnaissance camera could be carried) and practicing making rendezvous with suspicious satellites. This project was called Blue Gemini. The US Air Force did not like the fact that Gemini would have to be recovered by the US Navy, so they intended for Blue Gemini eventually to use the paraglider and land on three skids, something from the original design of Gemini.
At first some within NASA welcomed sharing of the cost with the USAF, but it was later agreed that NASA was better off operating Project Gemini by itself. MOL was cancelled in 1968 and Blue Gemini too was cancelled without any use by military astronauts.
Other proposals
Other Gemini derivatives were proposed, including Gemini LOR, Gemini Lunar Lander, Gemini-Centaur, Gemini Ferry, Gemini Transport, Gemini - Saturn I, Gemini - Saturn IB, Gemini - Saturn V, Gemini Pecan, Extended Mission Gemini, Gemini - Double Transtage, Gemini Satellite Inspector, Gemini Lunar Surface Rescue Spacecraft, Gemini observatory, Gemini Paraglider, Rescue Gemini, Winged Gemini, Gemini LORV and Gemini Lunar Surface Survival Shelter.[1]
Current
In 2005, NASA Administrator Michael Griffin announced that the new Orion spacecraft, an Apollo-derived spacecraft, would use the Gemini/Agena chasedown and docking technique when NASA starts sending crews back out to the Moon by 2020. The Orion, which will replace the Space Shuttle (which currently lands on a conventional runway similar to the early Gemini and Blue Gemini paraglider/skids technique), was originally designed to land on solid ground using deployable airbags or a Soyuz-style retrorocket system, but it is currently envisioned to be recovered in the ocean.
In addition, NASA may opt to replace the proposed launch escape system with the so-called Max Launch Abort System (MLAS) which would work in the same fashion as the Mercury and Apollo escape towers, but incorporate the rockets into the launch shroud itself, eliminating the tower altogether and allowing the Orion spacecraft to resemble the towerless Gemini-Titan launch system.
Astronauts
The following astronauts flew on the 10 Gemini missions:
From the Mercury Seven | ||
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Astronaut | Service | Mission |
Leroy Gordon Cooper, Jr. | USAF | Gemini V |
Virgil Ivan "Gus" Grissom | USAF | Gemini III |
Walter Marty Schirra, Jr. | USN | Gemini VI-A |
From Astronaut Group 2 | ||
Astronaut | Service | Mission |
Neil Alden Armstrong | (ret. USN) | Gemini VIII |
Frank Frederick Borman II | USAF | Gemini VII |
Charles "Pete" Conrad, Jr. | USN | Gemini V, Gemini XI |
James Arthur Lovell, Jr. | USN | Gemini VII, Gemini XII |
James Alton McDivitt | USAF | Gemini IV |
Thomas Patten Stafford | USAF | Gemini VI-A, Gemini IX-A |
Edward Higgins White II | USAF | Gemini IV |
John Watts Young | USN | Gemini III, Gemini X |
From Astronaut Group 3 | ||
Astronaut | Service | Mission |
Edwin Eugene "Buzz" Aldrin | USAF | Gemini XII |
Eugene Andrew Cernan | USN | Gemini IX-A |
Michael Collins | USAF | Gemini X |
Richard Francis Gordon, Jr. | USN | Gemini XI |
David Randolph Scott | USAF | Gemini VIII |
Crew Selection
Deke Slayton as head of the Astronaut Office had the main role in the choice of crews for the Gemini program. This selection process, with the prospect of more ambitious missions that would follow with Apollo, became even more political than in the Mercury Program. With Gemini it became a procedure that each flight had a primary crew and backup crew and that the backup crew would rotate to primary crew status three flights later. Slayton also intended for first choice of mission commands to be given to the four remaining active astronauts of the Mercury Seven, Alan Shepard, Gus Grissom, Gordon Cooper and Wally Schirra. John Glenn had retired from NASA in January 1964 and Scott Carpenter, who was blamed by some in NASA management for the problematic reentry of Aurora 7, was on leave to participate in the Navy's SEALAB project and was grounded from flight in July 1964. Slayton himself continued to be grounded due to a heart problem.
In late 1963, Slayton selected Alan Shepard and Thomas Stafford for Gemini 3, James McDivitt and Ed White for Gemini 4, and Wally Schirra and John Young for Gemini 5 (the first Agena rendezvous mission). Gemini 3 was backed up by Gus Grissom and Frank Borman, who were also slated for Gemini 6, the first long-duration mission. Finally Pete Conrad and James Lovell were assigned as the backup for Gemini 4.
Delays in the production of the Agena Target Vehicle caused the first rearrangement of the crew rotation. The Schirra and Young mission was bumped to Gemini 6 and they now were the backup crew for Shepard and Stafford. Grissom and Borman now had their long-duration mission assigned to Gemini 5.
The second rearrangement occurred when Alan Shepard developed Meniere's disease, an inner ear problem. Gus Grissom was moved to command Gemini 3. Slayton felt that Young was a better personality match with Grissom and switched Stafford and Young. Finally Slayton tapped Gordon Cooper to command the long-duration Gemini 5. Again for reasons of compatibility he moved Pete Conrad from being the backup commander of Gemini 4 to be the pilot of Gemini 5, and Frank Borman to the backup command of Gemini 4. Finally he assigned Neil Armstrong and Elliott See to be the backup crew for Gemini 5.
The third rearrangement of crew assignment occurred when Deke Slayton felt that Elliot See wasn't up to the physical demands of EVA on Gemini 8. He reassigned Elliot See to be the prime commander of Gemini 9 and put Dave Scott as pilot of Gemini 8 and Charles Bassett as the pilot of Gemini 9.
The fourth and final rearrangement of the Gemini crew assignment occurred after the deaths of Elliot See and Charles Bassett in a plane crash in St. Louis. The backup crew of Tom Stafford and Eugene Cernan was moved up to become the new prime crew of Gemini 9. James Lovell and Edwin "Buzz" Aldrin were moved from being the backup crew of Gemini 10 to be the backup crew of Gemini 9. This cleared the way through the crew rotation for Lovell and Aldrin to become the prime crew of Gemini 12. Along with the deaths of Grissom, White, and Chaffee in the fire of Apollo 1, this rearrangement is what finally determined the makeup of the early Apollo crews. These events were decisive in determining who would be in position to first walk on the Moon.
In his autobiography "Deke!" Slayton relates that he would probably have replaced Aldrin with Eugene Cernan, the backup pilot for Gemini 12, if the second flight of the AMU had flown on Gemini 12.
Missions
There were 12 Gemini flights, including two unmanned flight tests.
Unmanned
Mission | Rocket | LV Serial No | Mission Dates | Launch Time | Duration | Remarks |
---|---|---|---|---|---|---|
Gemini 1 | Titan II | GLV-1 12556 | April 8-12, 1964 | 16:01 UTC | 03d 23h | First test flight of Gemini |
Gemini 2 | Titan II | GLV-2 12557 | January 19, 1965 | 14:03 UTC | 00d 00h 18m 16s | Suborbital flight to test heat shield |
Manned
Mission | Rocket | LV Serial No | Command Pilot | Pilot | Mission Dates | Launch Time | Duration |
---|---|---|---|---|---|---|---|
Gemini III | Titan II | GLV-3 12558 | Grissom | Young | March 23, 1965 | 14:24 UTC | 00d 04h 52m 31s |
First manned Gemini flight, three orbits. | |||||||
Gemini IV | Titan II | GLV-4 12559 | McDivitt | White | June 03-07, 1965 | 15:15 UTC | 04d 01h 56m 12s |
Included first extravehicular activity (EVA) by an American; White's "space walk" was a 22 minute EVA exercise. | |||||||
Gemini V | Titan II | GLV-5 12560 | Cooper | Conrad | August 21-29, 1965 | 13:59 UTC | 07d 22h 55m 14s |
First week-long flight; first use of fuel cells for electrical power; evaluated guidance and navigation system for future rendezvous missions. Completed 120 orbits. | |||||||
Gemini VII | Titan II | GLV-7 12562 | Borman | Lovell | December 04-18, 1965 | 19:30 UTC | 13d 18h 35m 01s |
When the original Gemini VI mission was scrubbed because its Agena target for rendezvous and docking failed, Gemini VII was used for the rendezvous instead. Primary objective was to determine whether humans could live in space for 14 days. | |||||||
Gemini VI-A | Titan II | GLV-6 12561 | Schirra | Stafford | December 15-16, 1965 | 13:37 UTC | 01d 01h 51m 24s |
First space rendezvous accomplished with Gemini VII, station-keeping for over five hours at distances from 0.3 to 90 m (1 to 295 ft). | |||||||
Gemini VIII | Titan II | GLV-8 12563 | Armstrong | Scott | March 16, 1966 | 16:41 UTC | 00d 10h 41m 26s |
Accomplished first docking with another space vehicle, an unmanned Agena stage. When undocked, a Gemini spacecraft thruster malfunction caused near-fatal tumbling of the craft, which Armstrong was able to overcome; the crew effected the first emergency landing of a manned U.S. space mission. | |||||||
Gemini IX-A | Titan II | GLV-9 12564 | Stafford | Cernan | June 03-06, 1966 | 13:39 UTC | 03d 00h 21m 50s |
Rescheduled from May to rendezvous and dock with augmented target docking adapter (ATDA) after original Agena target vehicle failed to orbit. ATDA shroud did not completely separate, making docking impossible. Three different types of rendezvous, two hours of EVA, and 44 orbits were completed. | |||||||
Gemini X | Titan II | GLV-10 12565 | Young | Collins | July 18-21, 1966 | 22:20 UTC | 02d 22h 46m 39s |
First use of Agena target vehicle's propulsion systems. Spacecraft also rendezvoused with Gemini VIII target vehicle. Collins had 49 minutes of EVA standing in the hatch and 39 minutes of EVA to retrieve experiment from Agena stage. 43 orbits completed. | |||||||
Gemini XI | Titan II | GLV-11 12566 | Conrad | Gordon | September 12-15, 1966 | 14:42 UTC | 02d 23h 17m 08s |
Gemini record altitude, 1,189.3 km (739.2 mi) reached using Agena propulsion system after first orbit rendezvous and docking. Gordon made 33-minute EVA and two-hour standup EVA. 44 orbits. | |||||||
Gemini XII | Titan II | GLV-12 12567 | Lovell | Aldrin | November 11-15, 1966 | 20:46 UTC | 03d 22h 34m 31s |
Final Gemini flight. Rendezvoused and docked manually with its target Agena and kept station with it during EVA. Aldrin set an EVA record of 5 hours, 30 minutes for one space walk and two stand-up exercises. |
Gemini-Titan launches and serial numbers
The Gemini-Titan launch vehicles, like the Mercury-Atlas vehicles before them, were ordered by NASA through the U. S. Air Force and were in reality missiles. The Gemini-Titan II rockets were assigned U.S. Air Force serial numbers, which were painted in four places on each Titan II (on opposite sides on each of the first and second stages). U.S. Air Force crews maintained Launch Complex 19 and prepared and launched all of the Gemini-Titan II launch vehicles.
The USAF serial numbers assigned to the Gemini-Titan launch vehicles are given in the tables above. Fifteen Titan IIs were ordered in 1962 so the serial is "62-12XXX", but only "12XXX" is painted on the Titan II. The order for the last three of the fifteen launch vehicles was cancelled on July 30, 1964, and they were never built. Serial numbers were, however, assigned to them prospectively: 12568 - GLV-13; 12569 - GLV-14; and 12570 - GLV-15.
Gemini-Titan in fiction
In an episode of Chuck Jones' Tom and Jerry, "Puss N Boats", Tom was holding a hose that was on and was flung to the sky, and saw the Gemini spacecraft in space.
Two Gemini spacecraft (called "Jupiter" in the film) play a role in the James Bond movie You Only Live Twice. The first is captured in space by an unidentified (and supposedly Soviet) spacecraft early in the movie. A second almost meets the same fate during the final showdown, but is saved by Bond who blows up the hostile vessel seconds before it can capture the capsule.
In the 1968 Robert Altman-directed film Countdown, a modified Gemini spacecraft is sent to the moon with a single astronaut in an effort to beat the Soviets following delays to Apollo. In the film the mission and craft are called Pilgrim. The film uses footage from both Gemini and Apollo launches. In real life, contractors for Project Gemini made proposals to NASA to develop the Gemini spacecraft as a cheaper and quicker vehicle to carry out a cislunar mission.
In the 1964 version of the novel Marooned, by Martin Caidin, a Mercury astronaut is stranded in Earth's orbit and a boilerplate Gemini (GT-2) is launched to rescue.
The novel Autopsy for a Cosmonaut, by Jacob Hay and John Keshishian, is an account of a pathologist trained for a Gemini 12-A flight and EVA, to conduct in-flight autopsies of Soviet cosmonauts who have perished in a marooned Voskhod prototype.
In the comic book series Dan Cooper number 16 - "SOS dans l'espace" by Albert Weinberg, a "Gemini 13" mission plays an important role.
In the TV series I Dream of Jeannie, footage from the project is used to depict a fictional Gemini mission.
References
See also
- National Aeronautics and Space Administration
- Titan (rocket family), including the Titan II rocket
- Big Gemini
- Blue Gemini
- Manned Orbital Laboratory
- Splashdown
- Agena Target Vehicle
Further reading
- Gene Kranz, Failure is Not an Option. Factual, from the standpoint of a chief flight controller during the Mercury, Gemini, and Apollo space programs. ISBN 0-7432-0079-9
- David M. Harland, How NASA Learned to Fly in Space: An Exciting Account of the Gemini Missions, Apogee Books, 2004, ISBN 1-894959-07-8
- David J. Shayler, Gemini, Springer-Verlag Telos, 2001, ISBN 1-85233-405-3
- On the Shoulders of Titans: A History of Project Gemini - NASA report (PDF format)
- Project Gemini technology and operations - A chronology - NASA report (PDF fomat)
External links
- On the Shoulders of Titans: A History of Project Gemini by Barton C. Hacker and James M. Grimwood
- John F. Kennedy Space Center - The Gemini Program
- NASA Project Gemini site
- Space history: Gemini Program space history - Gemini missions spaceflight
- Project Gemini Drawings and Technical Diagrams
- Technical Diagrams and Drawings
- Gemini familiarization Manuals (PDF).
- Gemini Designer Jim Chamberlin Bio
- Direct Flight Apollo Study: Gemini Spacecraft Applications : document on the proposed Gemini-based Apollo program.
- NASA History Series Publications (many of which are on-line)
Archival Materials: