Apollo–Soyuz Test Project
The Apollo spacecraft, as seen by the Soyuz crew. | |
Mission type | Cooperative/scientific |
---|---|
Operator | NASA |
COSPAR ID | 1975-066A |
SATCAT № | 8032 |
Mission duration | 9 d 01 h 28 min |
Distance travelled | ~5,990,000 km (3,720,000 mi) |
Orbits completed | 148 |
Spacecraft properties | |
Spacecraft | Apollo CSM-111 |
Launch mass | 16,780 kg or 36,990 lb (total CSM and DM) |
Dry mass | 14,768 kg (32,558 lb) (CSM) |
Payload mass | 2,012 kg or 4,436 lb (Docking Module) |
Crew | |
Crew size | 3 |
Members | |
Callsign | Apollo |
Start of mission | |
Launch date | 19:50:00, July 15, 1975 (UTC) |
Rocket | Saturn IB SA-210 |
Launch site | Kennedy LC-39B |
End of mission | |
Recovered by | USS New Orleans |
Landing date | 21:18:00, July 24, 1975 (UTC) |
Landing site | 21°52′N 162°45′W / 21.867°N 162.750°W |
Orbital parameters | |
Perigee | 217 km (135 mi) |
Apogee | 231 km (144 mi) |
Inclination | 51.7° or 51.75° |
Period | 87.6 or 88.91 minutes |
Docking with Soyuz 19 | |
Docking date | First: 16:19:09, July 17, 1975 (UTC) |
Undocking date | Last: 15:26:12, July 19, 1975 (UTC) |
Time docked | 1 day, 23 hours, 07 min, 03 sec |
Left to right: Slayton, Brand, Stafford |
The Apollo–Soyuz Test Project (ASTP) (Russian: Экспериментальный полёт «Союз» — «Аполлон», Eksperimantalniy polyot Soyuz-Apollon, lit. "Experimental flight Soyuz-Apollo"), conducted in July 1975, was the first joint U.S.–Soviet space flight, as a symbol of the policy of détente that the two superpowers were pursuing at the time. It involved the docking of an Apollo Command/Service Module with the Soviet Soyuz 19. The unnumbered Apollo vehicle was a surplus from the terminated Apollo program and the last one to fly. This mission ceremoniously marked the end of the Space Race that had begun in 1957 with the Sputnik launch.[1]
The mission included both joint and separate scientific experiments (including an engineered eclipse of the Sun by Apollo to allow Soyuz to take photographs of the solar corona), and provided useful engineering experience for future joint US–Russian space flights, such as the Shuttle–Mir Program and the International Space Station.
ASTP was the last manned US space mission until the first Space Shuttle flight in April 1981. It was also U.S. astronaut Donald "Deke" Slayton's only space flight. He was chosen as one of the original Mercury Seven astronauts in April 1959, but had been grounded until 1972 for medical reasons.
Apollo crew
Position | Astronaut | |
---|---|---|
Commander | Thomas P. Stafford Fourth and last spaceflight | |
Command Module Pilot | Vance D. Brand First spaceflight | |
Docking Module Pilot | Donald K. Slayton Only spaceflight |
Backup crew
Position | Astronaut | |
---|---|---|
Commander | Alan L. Bean | |
Command Module Pilot | Ronald E. Evans | |
Docking Module Pilot | Jack R. Lousma |
Crew notes
Jack Swigert had originally been assigned as the command module pilot for the ASTP prime crew, but prior to the official announcement he was removed as punishment for his involvement in the Apollo 15 postage stamp incident.[2]
- Support crew
- Karol J. Bobko, Robert L. Crippen, Robert F. Overmyer, Richard H. Truly
- Flight directors
- Pete Frank (Orange team), Neil Hutchinson (Silver team), Don Puddy (Crimson team), Frank Littleton (Amber team)
Soyuz crew
Soyuz 19 as seen from the Apollo. | |||||
Mission type | Cooperative/scientific | ||||
---|---|---|---|---|---|
COSPAR ID | 1975-065A | ||||
SATCAT № | 8030 | ||||
Mission duration | 5 d 22 h 30 m | ||||
Distance travelled | ~3,900,000 km (2,400,000 mi) | ||||
Orbits completed | 96 | ||||
Spacecraft properties | |||||
Spacecraft type | Soyuz 7K-TM | ||||
Dry mass | 6,790 kg (14,970 lb) | ||||
Crew | |||||
Crew size | 2 | ||||
Members | |||||
Callsign | Союз (Soyuz - "Union") | ||||
Start of mission | |||||
Launch date | 12:20:00, July 15, 1975 (UTC) | ||||
Rocket | Soyuz-U | ||||
Launch site | Gagarin's Start, Baikonur Cosmodrome | ||||
End of mission | |||||
Recovered by | Soviet Armed Forces | ||||
Landing date | 10:50:00, July 21, 1975 (UTC) | ||||
Landing site | 50°40′N 67°1′E / 50.667°N 67.017°E | ||||
Orbital parameters | |||||
Perigee | 218 km (135 mi) or 186 km (116 mi) | ||||
Apogee | 231 km (144 mi) or 220 km (140 mi) | ||||
Inclination | 51.76° or 51.8° | ||||
Period | 88.92 or 88.5 min | ||||
Docking with Apollo | |||||
Docking date | First: 16:19:09, July 17, 1975 (UTC) | ||||
Undocking date | Last: 15:26:12, July 19, 1975 (UTC) | ||||
Time docked | 1 day, 23 hours, 07 min, 03 sec | ||||
Left to right: Leonov, Kubasov
|
Position | Cosmonaut | |
---|---|---|
Commander | Alexey Leonov Second and last spaceflight | |
Flight Engineer | Valeri Kubasov Second spaceflight |
Backup crew
Position | Cosmonaut | |
---|---|---|
Commander | Anatoly Filipchenko | |
Flight Engineer | Nikolay Rukavishnikov |
Historical background
The purpose and catalyst of the Apollo–Soyuz Test Project was the policy of détente between the two Cold War superpowers, the United States and the Soviet Union. Prior to this mission, tensions remained high between the two world superpowers while the United States was engaged in the Vietnam War. Meanwhile, the Soviet press was highly critical of the Apollo space missions, printing "the armed intrusion of the United States and Saigon puppets into Laos is a shameless trampling underfoot of international law" over a photograph of the Apollo 14 launch in 1971.[3] Although Soviet leader Nikita Khrushchev made the Soviet Union’s policy of détente official in his 1956 doctrine of peaceful coexistence at the 20th Congress of the Communist Party of the Soviet Union, the two nations seemed to be in perpetual conflict.
Due to tense relations, space cooperation between the United States and the Soviet Union was unlikely in the early 1970s. Each nation was making its own extravagant claims about accomplishments in space. Most recently on June 7, 1971, the USSR had bragging rights over the first piloted orbital space station, Salyut 1. Meanwhile, the United States had launched the Apollo 14 mission several months prior, the third spacecraft to land humans on the moon. Each side gave the other close to no coverage whatsoever of their achievements.[3]
Furthermore, both sides had severe criticisms of the other side’s engineering. Soviet spacecraft were designed with automation in mind; the Lunokhod 1 and Luna 16 were both unmanned probes, and each Soyuz spacecraft had been designed to minimize risk due to human error by having fewer manual controls with which human operators would have to contend during flight. By contrast, the Apollo spacecraft was designed to be operated by humans and required highly trained astronauts in order to operate. The Soviet Union criticised the Apollo spacecraft as being "extremely complex and dangerous".[3]
The Americans also had their own concerns about Soviet spacecraft. Christopher C. Kraft, director of the Manned Spacecraft Center, criticized the design of the Soyuz: "We in NASA rely on redundant components--if an instrument fails during flight, our crews switch to another in an attempt to continue the mission. Each Soyuz component, however, is designed for a specific function; if one fails, the cosmonauts land as soon as possible. The Apollo vehicle also relied on astronaut piloting to a much greater extent than did the Soyuz machine".[4] However, American and Soviet engineers already settled their differences for a possible docking of American and Soviet spacecraft in meetings between June and December 1971 in Houston and Moscow, including Bill Creasy’s design of an androgynous docking system between the two ships that would allow either to be active or passive during docking.[5]
With the close of the Vietnam War, relations between the United States and the USSR began to improve, as did the prognosis for a potential cooperative space mission.[3] The Apollo-Soyuz Test Project was made possible by the thaw in these relations, and the project itself endeavored to amplify and solidify the improving relations between the United States and the Soviet Union. According to Soviet leader Leonid Brezhnev, "The Soviet and American spacemen will go up into outer space for the first major joint scientific experiment in the history of mankind. They know that from outer space our planet looks even more beautiful. It is big enough for us to live peacefully on it, but it is too small to be threatened by nuclear war".[3] Thus, both sides recognized ASTP as a political act of peace.[6]
In October 1970, Soviet Academy of Sciences president Mstislav Keldysh responded to NASA Administrator Thomas O. Paine’s letter proposing a project about a cooperative space mission, and there was subsequently a meeting to discuss technical details. By January 12, U.S. President Richard Nixon's Foreign Policy Adviser Henry Kissinger enthusiastically espoused plans for the mission, and expressed these views to NASA administrator George M. Low: "As long as you stick to space, do anything you want to do. You are free to commit--in fact, I want you to tell your counterparts in Moscow that the President has sent you on this mission."[7] By April 1972, both the United States and the USSR signed an Agreement Concerning Cooperation in the Exploration and Use of Outer Space for Peaceful Purposes,[8] committing both the USSR and the United States to the launch of the Apollo–Soyuz Test Project in 1975.[9]
ASTP was particularly significant for the USSR’s policy of keeping the details of their space program secret from the Soviet people and the world at large, especially Americans. The ASTP was the first space mission to be televised in a live fashion during the launch, while in space, and during the landing.[3] Furthermore, Soyuz 19 was the first spacecraft to which a foreign flight crew had access before flight. The Apollo crew were permitted to inspect Soyuz 19 as well as the launch and crew training site, constituting an unprecedented sharing of information with Americans about any Soviet space program.
Not all reactions to ASTP were positive, however. Many Americans feared that ASTP was giving the USSR too much credit in their space program, putting them on equal footing with the sophisticated space exploration efforts of NASA. More feared that the apparent peaceful cooperation between the USSR and the United States would lull people into believing there was no conflict at all between the two superpowers.[3] However, soliciting appropriations from the American Congress proved to be quite difficult, which was not a problem in the Soviet Union, and the dedication to space exploration demonstrated by the Soviet Union rejected these criticisms. Some Soviet publicists called American critics of the mission "demagogues who stand against scientific cooperation with the U.S.S.R."[3] In general, however, tensions between the United States and the USSR had softened, and the project set a precedent for future cooperative projects in space.[8]
Mission summary
Background
The Apollo–Soyuz Test Project entailed the docking of an American Apollo Command/Service Module (CSM) with a Soviet Soyuz 7K-TM spacecraft. Although the Soyuz was given a mission designation number (Soyuz 19) as part of the ongoing Soyuz program, its radio call sign was simply "Soyuz" for the duration of the joint mission. The Apollo mission was not a numbered mission of the Apollo program, and similarly bore the call sign "Apollo". Despite this, some of the press and a few NASA web pages have referred to the mission as "Apollo 18", but this should not be confused with the canceled lunar mission.[10][11][12][13]
The Apollo spacecraft was launched with a docking module specially designed to enable the two spacecraft to dock with each other, used only once for this mission. The Saturn IB launch vehicle and CSM were surplus material. Like the Apollo Lunar Module, the docking module had to be retrieved from the S-IVB upper-stage of the Saturn rocket after launch. The docking module was designed as both an airlock — as the Apollo was pressurized at about 5.0 psi (344.7 mbar) using pure oxygen, while the Soyuz used a nitrogen/oxygen atmosphere at sea level pressure (about 14.69 psi or 1013 mbar) — and an adapter, since the surplus Apollo hardware used for the ASTP mission was not equipped with the APAS docking collar jointly developed by NASA and the Soviet Academy of Sciences for the mission. One end of the docking module was attached to the Apollo using the same "probe-and-drogue" docking mechanism used on the Lunar Module and the Skylab space station, while its other end had the APAS docking collar, which Soyuz 19 carried in place of the standard Soyuz/Salyut system of the time. The APAS collar fitted onto Soyuz 19 was releasable, allowing the two spacecraft to separate in case of malfunction.
The Apollo flew with a three-man crew on board: Tom Stafford, Vance Brand, and Deke Slayton. Stafford had already flown into space three times, including within eight miles of the lunar surface, and was the first general officer to fly into space (he was a brigadier general in the United States Air Force at the time of the flight; he would retire with three stars in 1979). Slayton was one of the original Mercury Seven astronauts selected in 1959, but an irregular heartbeat grounded him until 1972. He became head of NASA's astronaut office and, after a lengthy medical program, selected himself for this mission. At the time, Slayton was the oldest person to fly in space and the one with the longest gap between selection as an astronaut and first flight into space. Brand, meanwhile, had trained with the Apollo spacecraft used for this mission during his time as a backup Apollo 15 command module pilot, and had served two stints as a backup Skylab commander. The closest he came to flying prior to ASTP was as commander for the Skylab Rescue mission mustered to potentially retrieve the crew of Skylab 3 due to a fuel leak on that mission's Apollo CSM.
The Soyuz flew with two men: Alexey Leonov and Valeri Kubasov. Leonov became the first man to walk in space on Voskhod 2 in 1965. Kubasov, who flew on Soyuz 6 in 1969, ran some of the earliest space manufacturing experiments. Both were slated to have flown on the ill-fated Soyuz 11 in 1971 (Leonov as commander, Kubasov as the flight engineer), but were grounded because Kubasov was suspected to have tuberculosis. The two-man crew on the Soyuz was a result of the modifications needed to allow the cosmonauts to wear the Sokol pressure suit during launch, docking, and reentry.
The ASTP-class Soyuz 7K-TM spacecraft used was a variation of the post-Soyuz 11 two-man design, with the batteries replaced by solar panels enabling "solo" flights (missions not docking to one of the Salyut space stations). It was designed to operate, during the docking phase, at a reduced nitrogen/oxygen pressure of 10.2 psi, allowing easier transfers between the Apollo and Soyuz. Six ASTP-class Soyuz spacecraft were built in total, including the one used. Before the actual mission, two craft were launched unmanned as Kosmos satellites. The third was launched as the manned Soyuz 16 flight as a rehearsal in order to test the APAS docking mechanism. Another craft was used fully fueled as a "hot backup" at the launch site – later it was disassembled. And the sixth craft was available as a "cold" backup; it was later used on the last "solo" Soyuz flight in 1976, but with the APAS docking adapter replaced by the MKF-6 multispectral camera.
Launch and mission
The Soyuz and Apollo flights launched within seven-and-a-half hours of each other on July 15, and docked on July 17. Three hours later, the two mission commanders, Stafford and Leonov, exchanged the first international handshake in space through the open hatch of the Soyuz. NASA had calculated that the historic handshake would have taken place over the British seaside resort of Bognor Regis,[14] but a delay resulted in its occurrence being over the town of Metz in France.[15] During the first crew exchange, the crews were read a statement from Soviet Premier Leonid Brezhnev, and received a phone call from U.S. President Gerald Ford.
While the two ships were docked, the three Americans and two Soviets conducted joint scientific experiments, exchanged flags and gifts (including tree seeds which were later planted in the two countries), signed certificates, visited each other's ships, ate together, and conversed in each other's languages. (Because of Stafford's pronounced drawl when speaking Russian, Leonov later joked that there were three languages spoken on the mission: Russian, English, and "Oklahomski.") There were also docking and redocking maneuvers, during which the two spacecraft reversed roles and the Soyuz became the "active" ship.
American scientists developed four of the experiments performed during the mission. Embryologist Jane Oppenheimer analyzed the effects of weightlessness on fish eggs at various stages of development.[16]
After 44 hours together, the two ships separated, and maneuvered to use the Apollo to create an artificial solar eclipse to allow the crew of the Soyuz to take photographs of the solar corona. Another brief docking was made before the ships went their separate ways. The Soviets remained in space for five days, and the Americans for nine, during which the Apollo crew also conducted Earth observation experiments.
Re-entry and aftermath
The mission was considered a great success, both technically and as a public-relations exercise for both nations. The only serious problem was during reentry and splashdown of the Apollo craft, during which the crew were accidentally exposed to toxic nitrogen tetroxide fumes, caused by the reaction control system (RCS) oxidizer venting from the spacecraft and reentering a cabin air intake. The RCS was inadvertently left on during descent, and highly toxic nitrogen tetroxide was sucked into the spacecraft as it drew in outside air. Brand briefly lost consciousness, while Stafford retrieved emergency oxygen masks, put one on Brand, and gave one to Slayton. The three astronauts were hospitalized for two weeks in Honolulu.[17] Brand took responsibility for the mishap; because of high noise levels in the cabin during reentry, he believes he was unable to hear Stafford call off one item of the reentry checklist, the closure of two switches which would have automatically shut off the RCS and initiated drogue parachute deployment. These procedures were manually performed later than usual, allowing the ingestion of the propellant fumes through the ventilation system.[18]
The ASTP was the final flight of an Apollo spacecraft. Immediately after the launch of the Apollo spacecraft, preparations began to convert Launch Pad 39B and the Vehicle Assembly Building at Kennedy Space Center for use by the Space Shuttle, the United States' next manned spacecraft program. Launch Pad 39A had already been closed after the launch of Skylab.
Spacecraft locations
The Apollo Command Module from the mission is on display at the California Science Center in Los Angeles. The descent module of Soyuz 19 is on display at the RKK Energiya museum in Korolyov, Moscow Oblast, Russia.
A display at the National Air and Space Museum in Washington, D.C. shows the docked Apollo/Soyuz configuration with the restored Apollo Command and Service Module used for testing prior to the mission, the back-up Docking Module, and a model of the Soyuz spacecraft. An identical Soyuz model is exhibited at the Kennedy Space Center Visitor Complex. A full-size mockup of the two docked spacecraft is located at the Cosmosphere in Hutchinson, Kansas.
Legacy
A derivative (but mechanically incompatible) docking collar, APAS-89 was launched as part of the Kristall module of the Soviet Mir space station. Originally intended as the docking port for the (defunct) Buran Soviet space shuttle, the APAS-89 unit was used for the next Russo-American docking mission, STS-71, twenty years later as part of the Shuttle–Mir Program (though not before the docking port was tested by the last APAS-equipped Soyuz, TM-16, in 1993).
The American Space Shuttle continued to use the same APAS-89 docking hardware through the end of the Space Shuttle program to dock to Mir and then the International Space Station, the latter through the Pressurized Mating Adapters (PMAs).
The PMAs are equipped with the later APAS-95 adapters, which differ from the APAS-89 adapters in that they are no longer androgynous; while compatible with the APAS-89 docking collars, they are not capable of acting as the "active" partner in docking.
The first PMA, PMA-1, remains in use as the interface connecting the Russian-built, NASA-owned Zarya module to the US segment of the ISS, and so the APAS continues in use to this day.
A minor planet, 2228 Soyuz-Apollo, discovered in 1977 by Soviet astronomer Nikolai Stepanovich Chernykh, is named after the mission.[19]
Commemorations
The US Postal Service issued the Apollo–Soyuz commemorative stamps, honoring the United States–Soviet link up in space, on July 15, 1975, the day of the launch. The remaining crew's most recent reunion was on July 16, 2010, when Leonov, Kubasov, Stafford, and Brand met at an Omega timepiece store in New York City. All except Leonov participated in a public roundtable that evening. Omega had produced several watches to be used on the mission.[20]
Monument
In the wake of the mission, a large Apollo–Soyuz monument was constructed outside TsUP (the Soviet, later Russian space control center) in Moscow. It consisted of a metal Earth overarched by an arc terminating in a scale model of the joined Apollo–Soyuz spacecraft. It was damaged when a vehicle collided with it in the late 1990s , and was removed for repairs.
Program cost
The United States spent $245 million on Apollo–Soyuz, or $1 billion in 2010 inflation-adjusted dollars.[21]
See also
- Interkosmos, a Soviet space program from 1967 to 1994, designed to give foreign nations access to space missions.
- List of spaceflight-related accidents and incidents
- Spaceflight portal
References
This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.
- ↑ Samuels, Richard J., ed. (December 21, 2005). Encyclopedia of United States National Security (1st ed.). SAGE Publications. p. 669. ISBN 978-0761929277. Retrieved May 25, 2016.
Most observers felt that the U.S. moon landing ended the space race with a decisive American victory. […] The formal end of the space race occurred with the 1975 joint Apollo-Soyuz mission, in which U.S. and Soviet spacecraft docked, or joined, in orbit while their crews visited one another's craft and performed joint scientific experiments.
- ↑ Slayton, Donald; Cassutt, Michael (1994). Deke! U.S. Manned Space: From Mercury to the Shuttle. New York: Forge. pp. 278–279. ISBN 0-312-85503-6. LCCN 94-2463. OCLC 29845663.
- 1 2 3 4 5 6 7 8 Committee on Aeronautical and Space Sciences, Soviet Space Programs, 1971–75. Washington: U.S. Govt. Print. Off., 1976.
- ↑ Ezell, Edward; Ezell, Linda (1978). "Foreword". The Partnership: A History of the Apollo-Soyuz Test Project. Washington, D.C.: NASA.
- ↑ Debbora Battaglia, "Arresting Hospitality: the Case of the ‘Handshake in Space'," Journal of the Royal Anthropological Institute vol. 18 issue 1 June 2012. p. S76-S89
- ↑ Debbora Battaglia, "Arresting Hospitality: the Case of the ‘Handshake in Space'", Journal of the Royal Anthropological Institute vol. 18 issue 1 June 2012. p. S76-S89
- ↑ Ezell, Edward; Ezell, Linda (1978). "Chapter 5. Proposal for a Test Flight". The Partnership: A History of the Apollo-Soyuz Test Project. Washington, D.C.: NASA.
- 1 2 Jennifer Ross-Nazzal,"Détente on Earth and in Space: The Apollo-Soyuz Test Project," Organization of American Historians Magazine of History, September 2010, Volume 24, Issue 3, pp. 29 – 34.
- ↑ Agreement Concerning Cooperation in the Exploration and Use of Outer Space for Peaceful Purposes: Moscow, 24 May 1972. Moscow: NASA, 1972.
- ↑ "Apollo-Soyuz". nasa.gov.
- ↑ "HEASARC Missions". nasa.gov.
- ↑ http://www.jsc.nasa.gov/history/oral_histories/StaffordTP/TPS_BIO.pdf
- ↑ http://www.jsc.nasa.gov/history/oral_histories/BrandVD/BrandVD_Bio.pdf
- ↑ Jones, Phillip. "Blast-off to Bognor". Retrieved 4 May 2011.
- ↑ Edward Clinton Ezell; Linda Neuman Ezell (1978). "The Partnership: A History of the Apollo-Soyuz Test Project". NASA. Archived from the original on May 24, 2011. Retrieved 4 May 2011.
- ↑ Wolfgang Saxon, "Jane Oppenheimer Dies at 84; Expert on Embryos and Space," New York Times, March 23, 1996
- ↑ Ezell, Edward Clinton; Ezell, Linda Neuman (1978). "The Partnership: A History of the Apollo–Soyuz Test Project". NASA History Series. NASA (NASA Special Publication-4209). Archived from the original on 2007-08-23. Retrieved 2009-03-17.
- ↑ "Brand Takes Blame For Apollo Gas Leak", Florence, AL – Times Daily newspaper, Aug. 10, 1975
- ↑ Schmadel, Lutz D. (2003). Dictionary of Minor Planet Names (5th ed.). New York: Springer Verlag. p. 181. ISBN 3-540-00238-3.
- ↑ First International Space Crew Reunites for Mission's 35th Anniversary. Space.com. Retrieved on 2012-08-04.
- ↑ Lafleur, Claude (March 8, 2010). "Costs of US piloted programs". The Space Review. Retrieved February 18, 2012.
External links
Wikimedia Commons has media related to Apollo-Soyuz Test Project. |
- ASTP Chronology
- ASTP home page
- Apollo–Soyuz
- The Partnership: A History of the Apollo–Soyuz Test Project – the official NASA history of the mission
- International rendezvous and docking mission (Apollo–Soyuz/Salyut) 1971 – NASA report (PDF format)
- Apollo/Soyuz test project operational data book. Volume 2: ASTP mass properties data book – NASA report (PDF format)
- Apollo–Soyuz test project operation handbook command service docking modules systems operating procedures – NASA flight operations manual (PDF Format)
- NASA History Series Publications (many of which are on-line)
- «Apollo-Soyuz» – tell Soviet scientists, engineers and astronauts – participants of the joint work of American specialists, Politizdat 1976, with a circulation of 100 000 copies.
- Media
- A film clip of ASTP Highlights is available at the Internet Archive
- The short film The Apollo-Soyuz Mission is available for free download at the Internet Archive
- The short film Apollo Soyuz (1975) is available for free download at the Internet Archive
- The short film MISSION OF APOLLO-SOYUZ (1975) is available for free download at the Internet Archive
- The short film 25 Years of Progress, Episode 9: Transition Years (1983) is available for free download at the Internet Archive
- The short film Apollo-Soyuz Test Project Facts (1975) is available for free download at the Internet Archive
- The short film Apollo-Soyuz Test Project Facts, Part B (1975) is available for free download at the Internet Archive
- The short film Apollo-Soyuz Test Project Facts, Part C (1975) is available for free download at the Internet Archive
- The short film History of Space Travel, Episode 13: The Mission of Apollo-Soyuz is available for free download at the Internet Archive
- The short film CMP_249_Our_Laboratories_in_Space_Episode7.wmv is available for free download at the Internet Archive (several types of media formats are available)
- The short film https://archive.org/details/Jsc-603Apollo17-OnTheShouldersOfGiants.wmv is available for free download at the Internet Archive (several types of media formats are available)