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	Space Race

	
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		Competition between the USSR and the USA to explore space

This article is about the Cold War rivalry between the United States and Soviet Union. For various space races, see List of space races. For other uses of the term, see Space Race (disambiguation).






The Soviet Union achieved an early lead in the Space Race by launching the first artificial satellite Sputnik 1 (replica shown) in 1957.



The United States led during the "Moon race" by landing Neil Armstrong (pictured) and Buzz Aldrin on the Moon, July 20, 1969.



Astronaut Thomas P. Stafford and cosmonaut Alexei Leonov shake hands in space during Apollo–Soyuz.





The Space Race was an informal 20th-century competition between two Cold War rivals, the Soviet Union (USSR) and the United States (US), to achieve firsts in spaceflight capability. It had its origins in the ballistic missile-based nuclear arms race between the two nations following World War II. The technological advantage required to rapidly achieve spaceflight milestones was seen as necessary for national security, and mixed with the symbolism and ideology of the time. The Space Race led to pioneering efforts to launch artificial satellites, uncrewed space probes to the Moon, Venus, and Mars, and human spaceflight in low Earth orbit and to the Moon.[1]

The competition began in earnest on August 2, 1955, when the Soviet Union responded to the US announcement four days earlier of intent to launch artificial satellites for the International Geophysical Year, by declaring they would also launch a satellite "in the near future". The Soviet Union achieved the first successful launch with the October 4, 1957, orbiting of Sputnik 1, and sent the first human to space with the orbital flight of Yuri Gagarin on April 12, 1961. The USSR also sent the first woman, Valentina Tereshkova, to space on June 16, 1963, with numerous other firsts taking place over the next few years with regards to flight duration, spacewalks and related activities. According to Russian sources, these achievements led to the conclusion that the USSR had an advantage in space technology in the early 1960s.[2]

According to US sources, the "race" peaked with the July 20, 1969, US landing of the first humans on the Moon with Apollo 11. Most US sources will point to the Apollo 11 lunar landing as a singular achievement far outweighing any combination of Soviet achievements. The USSR attempted several crewed lunar missions, but eventually canceled them and concentrated on Earth orbital space stations, while the US landed several more times on the Moon.[3][4][5][6]

A period of détente followed with the April 1972 agreement on a co-operative Apollo–Soyuz, resulting in the July 1975 rendezvous in Earth orbit of a US astronaut crew with a Soviet cosmonaut crew and co-developing the enabling docking standard APAS-75. Though cooperation had been pursued since the very beginning of the Space Age, Apollo–Soyuz eased the competition to enable later cooperation.[7] The end of the Space Race and competition is not clear cut, since the Apollo 11 Moon landing and the ASTP have been identified as such,[8] but with the December 1991 dissolution of the Soviet Union it was ultimately replaced through increased spaceflight cooperation with the APAS enabled Shuttle–Mir and International Space Station programs between the US and the newly founded Russian Federation.[9][10]

The Space Race has left a technology legacy of increased space related development and advances. It sparked increases in spending on education and research and development, which led to many spin-off effects[11][12] such as the NASA Technology Transfer Program.[13][14]


Contents


	1 Early rocket development
	1.1 Germany during World War II
	1.2 Soviet rocket development
	1.3 American rocket development
	1.4 Cold War missile race



	2 Competition begins
	2.1 First artificial satellite
	2.2 US reaction



	3 Uncrewed lunar probes
	4 First human in space
	5 First American in space
	6 Kennedy aims for the Moon
	7 Completion of Vostok and Mercury programs
	7.1 Mercury
	7.2 Vostok



	8 Kennedy proposes a joint US-USSR program
	9 Gemini and Voskhod
	9.1 Voskhod program
	9.2 Project Gemini



	10 Soviet crewed Moon programs
	11 Outer space treaty
	12 Disaster strikes both sides
	13 Onward to the Moon
	14 Apollo 11
	15 Competition winds down
	15.1 Salyuts and Skylab
	15.2 Apollo–Soyuz Test Project



	16 Legacy
	16.1 Human spaceflight after Apollo
	16.2 Political legacy



	17 See also
	18 Notes
	19 References
	20 External links





Early rocket development[edit]

Germany during World War II[edit]

  
Wernher von Braun (1912–1977), technical director of Nazi Germany's missile program, became the United States' lead rocket engineer during the 1950s and 1960s



The origins of the Space Race can be traced to Germany, beginning in the 1930s and continuing during World War II when Nazi Germany researched and built operational ballistic missiles capable of sub-orbital spaceflight.[15] Starting in the early 1930s, during the last stages of the Weimar Republic, German aerospace engineers experimented with liquid-fueled rockets, with the goal that one day they would be capable of reaching high altitudes and traversing long distances.[16] The head of the German Army's Ballistics and Munitions Branch, Lieutenant Colonel Karl Emil Becker, gathered a small team of engineers that included Walter Dornberger and Leo Zanssen, to figure out how to use rockets as long-range artillery in order to get around the Treaty of Versailles' ban on research and development of long-range cannons.[17] Wernher von Braun, a young engineering prodigy, was recruited by Becker and Dornberger to join their secret army program at Kummersdorf-West in 1932.[18] Von Braun dreamed of conquering outer space with rockets and did not initially see the military value in missile technology.[19]

During the Second World War, General Dornberger was the military head of the army's rocket program, Zanssen became the commandant of the Peenemünde army rocket center, and von Braun was the technical director of the ballistic missile program.[20] They led the team that built the Aggregat-4 (A-4) rocket, which became the first vehicle to reach outer space during its test flight program in 1942 and 1943.[21] By 1943, Germany began mass-producing the A-4 as the Vergeltungswaffe 2 ("Vengeance Weapon" 2, or more commonly, V2), a ballistic missile with a 320 kilometers (200 mi) range carrying a 1,130 kilograms (2,490 lb) warhead at 4,000 kilometers per hour (2,500 mph).[22] Its supersonic speed meant there was no defense against it, and radar detection provided little warning.[23] Germany used the weapon to bombard southern England and parts of Allied-liberated western Europe from 1944 until 1945.[24] After the war, the V-2 became the basis of early American and Soviet rocket designs.[25][26]

At war's end, American, British, and Soviet scientific intelligence teams competed to capture Germany's rocket engineers along with the German rockets themselves and the designs on which they were based.[27] Each of the Allies captured a share of the available members of the German rocket team, but the United States benefited the most with Operation Paperclip, recruiting von Braun and most of his engineering team, who later helped develop the American missile and space exploration programs. The United States also acquired a large number of complete V2 rockets.[25]


Soviet rocket development[edit]

Further information: Soviet rocketry and Soviet space program

  
"Chief Designer" Sergei Korolev (left), with the "father of the Soviet atomic bomb" Igor Kurchatov, and "Chief Theoretician" Mstislav Keldysh in 1956



The German rocket center in Peenemünde was located in the eastern part of Germany, which became the Soviet zone of occupation. On Stalin's orders, the Soviet Union sent its best rocket engineers to this region to see what they could salvage for future weapons systems.[28] The Soviet rocket engineers were led by Sergei Korolev.[28] He had been involved in space clubs and early Soviet rocket design in the 1930s, but was arrested in 1938 during Joseph Stalin's Great Purge and imprisoned for six years in Gulag.[29] After the war, he became the USSR's chief rocket and spacecraft engineer, essentially the Soviet counterpart to von Braun.[30] His identity was kept a state secret throughout the Cold War, and he was identified publicly only as "the Chief Designer."[30] In the West, his name was only officially revealed when he died in 1966.[30]

After almost a year in the area around Peenemünde, Soviet officials conducted Operation Osoaviakhim and later moved more than 170 of the top captured German rocket specialists to Gorodomlya Island on Lake Seliger, about 240 kilometers (150 mi) northwest of Moscow.[31] They were not allowed to participate in final Soviet missile design, but were used as problem-solving consultants to the Soviet engineers.[32] They helped in the following areas: the creation of a Soviet version of the A-4; work on "organizational schemes"; research in improving the A-4 main engine; development of a 100-ton engine; assistance in the "layout" of plant production rooms; and preparation of rocket assembly using German components.[31] With their help, particularly Helmut Gröttrup's group, Korolev reverse-engineered the A-4 and built his own version of the rocket, the R-1, in 1948.[33] Later, he developed his own distinct designs, though many of these designs were influenced by the Gröttrup Group's G4-R14 design from 1949.[33] The Germans were eventually repatriated in 1952–53.[33] Details of the German achievements and potential contributions to the Soviet rocket and space program were evaluated after their return from Gorodomlya.[34]


American rocket development[edit]

The American professor Robert H. Goddard had worked on developing solid-propellant rockets since 1914, and demonstrated a light battlefield rocket to the US Army Signal Corps only five days before the signing of the armistice that ended World War I. He also started developing liquid-propellant rockets in 1921, yet he had not been taken seriously by the public.[35]

Von Braun and his team were sent to the United States Army's White Sands Proving Ground, located in New Mexico, in 1945.[36] They set about assembling the captured V2s and began a program of launching them and instructing American engineers in their operation.[37] These tests led to the first photos of Earth from space, and the first two-stage rocket, the WAC Corporal-V2 combination, in 1949.[37] The German rocket team was moved from Fort Bliss to the Army's new Redstone Arsenal, located in Huntsville, Alabama, in 1950.[38] From here, von Braun and his team developed the Army's first operational medium-range ballistic missile, the Redstone rocket, that in slightly modified versions, launched both America's first satellite, and the first piloted Mercury space missions.[38] It became the basis for both the Jupiter and Saturn family of rockets.[38]


Cold War missile race[edit]

Main article: Nuclear arms race


The cold war would become the great engine, the supreme catalyst, that sent rockets and their cargoes far above Earth and worlds away. If Tsiolkovsky, Oberth, Goddard, and others were the fathers of rocketry, the competition between capitalism and communism was its midwife.

William E. Burrows, This New Ocean, "The Other World Series", p. 147




The Cold War (1947–1991) developed between two former allies, the Soviet Union and the United States, soon after the end of the Second World War. It involved a continuing state of political conflict, military tension, proxy wars, and economic competition, primarily between the Soviet Union and its satellite states (often referred to as the Eastern Bloc) and the powers of the Western world, particularly the United States.[39] The primary participants' military forces never clashed directly, but expressed this conflict through military coalitions, strategic conventional force deployments, extensive aid to states deemed vulnerable, proxy wars, espionage, propaganda, a nuclear arms race, and economic and technological competitions, such as the Space Race.[39]

In simple terms, the Cold War could be viewed as an expression of the ideological struggle between communism and capitalism.[40] The United States faced a new uncertainty beginning in September 1949, when it lost its monopoly on the atomic bomb.[40] American intelligence agencies discovered that the Soviet Union had exploded its first atomic bomb, with the consequence that the United States potentially could face a future nuclear war that, for the first time, might devastate its cities.[40] Given this new danger, the United States participated in an arms race with the Soviet Union that included development of the hydrogen bomb, as well as intercontinental strategic bombers and intercontinental ballistic missiles (ICBMs) capable of delivering nuclear weapons.[40] A new fear of communism and its sympathizers swept the United States during the 1950s, which devolved into paranoid McCarthyism.[40] With communism spreading in China, Korea, and Eastern Europe, Americans came to feel so threatened that popular and political culture condoned extensive "witch-hunts" to expose communist spies.[40] Part of the American reaction to the Soviet atomic and hydrogen bomb tests included maintaining a large Air Force, under the control of the Strategic Air Command (SAC). SAC employed intercontinental strategic bombers, as well as medium-bombers based close to Soviet airspace (in western Europe and in Turkey) that were capable of delivering nuclear payloads.[41]

For its part, the Soviet Union harbored fears of invasion. Having suffered at least 27 million casualties during World War II after being invaded by Nazi Germany in 1941,[42] the Soviet Union was wary of its former ally, the United States, which until late 1949 was the sole possessor of atomic weapons. The United States had used these weapons operationally during World War II, and it could use them again against the Soviet Union, laying waste to its cities and military centers.[42] Since the Americans had a much larger air force than the Soviet Union, and the United States maintained advance air bases near Soviet territory, in 1947 Stalin ordered the development of intercontinental ballistic missiles (ICBMs) in order to counter the perceived American threat.[32]


  
Soviet R-7 ICBM, and its derivative launch vehicles for Sputnik, Vostok, Voskhod, and Soyuz



In 1953, Korolev was given the go-ahead to develop the R-7 Semyorka rocket, which represented a major advance from the German design. Although some of its components (notably boosters) still resembled the German G-4, the new rocket incorporated staged design, a completely new control system, and a new fuel. It was successfully tested on August 21, 1957, and became the world's first fully operational ICBM the following month.[43] It was later used to launch the first satellite into space, and derivatives launched all piloted Soviet spacecraft.[44]

The United States had multiple rocket programs divided among the different branches of the American armed services, which meant that each force developed its own ICBM program. The Air Force initiated ICBM research in 1945 with the MX-774.[45] However, its funding was cancelled and only three partially successful launches were conducted in 1947.[45] In 1950, von Braun began testing the Air Force PGM-11 Redstone rocket family at Cape Canaveral.[46] In 1951, the Air Force began a new ICBM program called MX-1593, and by 1955 this program was receiving top-priority funding.[45] The MX-1593 program evolved to become the Atlas-A, with its maiden launch occurring June 11, 1957, becoming the first successful American ICBM.[45] Its upgraded version, the Atlas-D rocket, later served as a nuclear ICBM and as the orbital launch vehicle for Project Mercury and the remote-controlled Agena Target Vehicle used in Project Gemini.[45]

With the Cold War as an engine for change in the ideological competition between the United States and the Soviet Union, a coherent space policy began to take shape in the United States during the late 1950s.[47] Korolev took inspiration from the competition as well, achieving many firsts to counter the possibility that the United States might prevail.[48]


Competition begins[edit]

Further information: Soviet space program and Space policy of the United States

First artificial satellite[edit]

In 1955, with both the United States and the Soviet Union building ballistic missiles that could be utilized to launch objects into space, the stage was set for nationalistic competition.[49] In separate announcements four days apart, both nations publicly announced that they would launch artificial Earth satellites by 1957 or 1958.[49] On July 29, 1955, James C. Hagerty, President Dwight D. Eisenhower's press secretary, announced that the United States intended to launch "small Earth circling satellites" between July 1, 1957, and December 31, 1958, as part of the US contribution to the International Geophysical Year (IGY).[49] Four days later, at the Sixth Congress of International Astronautical Federation in Copenhagen, scientist Leonid I. Sedov spoke to international reporters at the Soviet embassy and announced his country's intention to launch a satellite as well, in the "near future".[49] On August 30, 1955, Korolev managed to get the Soviet Academy of Sciences to create a commission whose purpose was to beat the Americans into Earth orbit: this was the de facto start date for the Space Race.[49] The Council of Ministers of the Soviet Union began a policy of treating development of its space program as classified information.

Initially, President Eisenhower was worried that a satellite passing above a nation at over 100 kilometers (62 mi) might be construed as violating that nation's sovereign airspace.[50] He was concerned that the Soviet Union would accuse the Americans of an illegal overflight, thereby scoring a propaganda victory at his expense.[51] Eisenhower and his advisors were of the opinion that a nation's airspace sovereignty did not extend past the Kármán line, and they used the 1957–58 International Geophysical Year launches to establish this principle in international law.[50] Eisenhower also feared that he might cause an international incident and be called a "warmonger" if he were to use military missiles as launchers. Therefore, he selected the untried Naval Research Laboratory's Vanguard rocket, which was a research-only booster.[52] This meant that von Braun's team was not allowed to put a satellite into orbit with their Jupiter-C rocket, because of its intended use as a future military vehicle.[52] On September 20, 1956, von Braun and his team did launch a Jupiter-C that was capable of putting a satellite into orbit, but the launch was used only as a suborbital test of reentry vehicle technology.[52]

Korolev received word about von Braun's 1956 Jupiter-C test and, mistakenly thinking it was a satellite mission that failed, expedited plans to get his own satellite in orbit. Since the R-7 was substantially more powerful than any of the US boosters, he made sure to take full advantage of this capability by designing Object D as his primary satellite.[53] It was given the designation 'D', to distinguish it from other R-7 payload designations 'A', 'B', 'V', and 'G' which were nuclear weapon payloads.[54] Object D dwarfed the proposed US satellites, having a weight of 1,400 kilograms (3,100 lb), of which 300 kilograms (660 lb) would be composed of scientific instruments that would photograph the Earth, take readings on radiation levels, and check on the planet's magnetic field.[54] However, things were not going along well with the design and manufacturing of the satellite, so in February 1957, Korolev sought and received permission from the Council of Ministers to build a Prosteishy Sputnik (PS-1), or simple satellite.[53] The Council also decreed that Object D be postponed until April 1958.[55] The new Sputnik was a metallic sphere that would be a much lighter craft, weighing 83.8 kilograms (185 lb) and having a 58-centimeter (23 in) diameter.[56] The satellite would not contain the complex instrumentation that Object D had, but had two radio transmitters operating on different short wave radio frequencies, the ability to detect if a meteoroid were to penetrate its pressure hull, and the ability to detect the density of the Earth's thermosphere.[57]


	

	
Beep ... beep ... beep




The signals of Sputnik 1 continued for 22 days


	
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Korolev was buoyed by the first successful launches of the R-7 rocket in August and September, which paved the way for the launch of Sputnik.[58] Word came that the US was planning to announce a major breakthrough at an International Geophysical Year conference at the National Academy of Sciences in Washington D.C., with a paper entitled "Satellite Over the Planet", on October 6, 1957.[59] Korolev anticipated that von Braun might launch a Jupiter-C with a satellite payload on or around October 4 or 5, in conjunction with the paper.[59] He hastened the launch, moving it to October 4.[59] The launch vehicle for PS-1 was a modified R-7 – vehicle 8K71PS number M1-PS – without much of the test equipment and radio gear that was present in the previous launches.[58] It arrived at the Soviet missile base Tyura-Tam in September and was prepared for its mission at launch site number one.[58] The first launch took place on Friday, October 4, 1957 at exactly 10:28:34 pm Moscow time, with the R-7 and the now named Sputnik 1 satellite lifting off the launch pad and placing the artificial "moon" into an orbit a few minutes later.[60] This "fellow traveler," as the name is translated in English, was a small, beeping ball, less than two feet in diameter and weighing less than 200 pounds. But the celebrations were muted at the launch control center until the down-range far east tracking station at Kamchatka received the first distinctive beep ... beep ... beep sounds from Sputnik 1's radio transmitters, indicating that it was on its way to completing its first orbit.[60] About 95 minutes after launch, the satellite flew over its launch site, and its radio signals were picked up by the engineers and military personnel at Tyura-Tam: that's when Korolev and his team celebrated the first successful artificial satellite placed into Earth-orbit.[61]


US reaction[edit]

Main article: Sputnik crisis

The Soviet success raised a great deal of concern in the United States. For example, economist Bernard Baruch wrote in an open letter titled "The Lessons of Defeat" to the New York Herald Tribune: "While we devote our industrial and technological power to producing new model automobiles and more gadgets, the Soviet Union is conquering space. ... It is Russia, not the United States, who has had the imagination to hitch its wagon to the stars and the skill to reach for the moon and all but grasp it. America is worried. It should be."[62]

Eisenhower ordered project Vanguard to move up its timetable and launch its satellite much sooner than originally planned.[63] The December 6, 1957 Project Vanguard launch failure occurred at Cape Canaveral Air Force Station in Florida, broadcast live in front of a US television audience.[63] It was a monumental failure, exploding a few seconds after launch, and it became an international joke. The satellite appeared in newspapers under the names Flopnik, Stayputnik, Kaputnik,[64] and Dudnik.[65] In the United Nations, the Soviet delegate offered the US representative aid "under the Soviet program of technical assistance to backwards nations."[64] Only in the wake of this very public failure did von Braun's Redstone team get the go-ahead to launch their Jupiter-C rocket as soon as they could. In Britain, the US's Western Cold War ally, the reaction was mixed: some celebrated the fact that the Soviets had reached space first, while others feared the destructive potential that military uses of spacecraft might bring.[66]


  
William Hayward Pickering, James Van Allen, and Wernher von Braun display a full-scale model of Explorer 1 at a Washington, DC news conference after confirmation the satellite was in orbit



On January 31, 1958, nearly four months after the launch of Sputnik 1, von Braun and the United States successfully launched its first satellite on a four-stage Juno I rocket derived from the US Army's Redstone missile, at Cape Canaveral.[67] The satellite Explorer 1 was 30.66 pounds (13.91 kg) in mass.[67]  The payload of Explorer 1 weighed 18.35 pounds (8.32 kg). It carried a micrometeorite gauge and a Geiger-Müller tube. It passed in and out of the Earth-encompassing radiation belt with its 194-by-1,368-nautical-mile (360 by 2,534 km) orbit, therefore saturating the tube's capacity and proving what Dr. James Van Allen, a space scientist at the University of Iowa, had theorized.[67] The belt, named the Van Allen radiation belt, is a doughnut-shaped zone of high-level radiation intensity around the Earth above the magnetic equator.[68] Van Allen was also the man who designed and built the satellite instrumentation of Explorer 1. The satellite measured three phenomena: cosmic ray and radiation levels, the temperature in the spacecraft, and the frequency of collisions with micrometeorites. The satellite had no memory for data storage, therefore it had to transmit continuously.[69] In March 1958 a second satellite was sent into orbit with augmented cosmic ray instruments.

On April 2, 1958, President Eisenhower reacted to the Soviet space lead in launching the first satellite by recommending to the US Congress that a civilian agency be established to direct nonmilitary space activities. Congress, led by Senate Majority Leader Lyndon B. Johnson, responded by passing the National Aeronautics and Space Act, which Eisenhower signed into law on July 29, 1958. This law turned the National Advisory Committee on Aeronautics into the National Aeronautics and Space Administration (NASA). It also created a Civilian-Military Liaison Committee, appointed by the President, responsible for coordinating the nation's civilian and military space programs.[70]

On October 21, 1959, Eisenhower approved the transfer of the Army's remaining space-related activities to NASA. On July 1, 1960, the Redstone Arsenal became NASA's George C. Marshall Space Flight Center, with von Braun as its first director. Development of the Saturn rocket family, which when mature gave the US parity with the Soviets in terms of lifting capability, was thus transferred to NASA.[citation needed]


Uncrewed lunar probes[edit]

In 1958, Korolev upgraded the R-7 to be able to launch a 400-kilogram (880 lb) payload to the Moon. Three secret[citation needed] 1958 attempts to launch Luna E-1-class impactor probes failed. The fourth attempt, Luna 1, launched successfully on January 2, 1959, but missed the Moon. The fifth attempt on June 18 also failed at launch. The 390-kilogram (860 lb) Luna 2 successfully impacted the Moon on September 14, 1959. The 278.5-kilogram (614 lb) Luna 3 successfully flew by the Moon and sent back pictures of its far side on October 6, 1959.[citation needed]

The US reacted to the Luna program by embarking on the Ranger program in 1959, managed by NASA's Jet Propulsion Laboratory. The Block I Ranger 1 and Ranger 2 suffered Atlas-Agena launch failures in August and November 1961. The 727-pound (330 kg) Block II Ranger 3 launched successfully on January 26, 1962, but missed the Moon. The 730-pound (330 kg) Ranger 4 became the first US spacecraft to reach the Moon, but its solar panels and navigational system failed near the Moon and it impacted the far side without returning any scientific data. Ranger 5 ran out of power and missed the Moon by 725 kilometers (391 nmi) on October 21, 1962. The first successful Ranger mission was the 806-pound (366 kg) Block III Ranger 7 which impacted on July 31, 1964.[citation needed]


First human in space[edit]

  
Yuri Gagarin, the first person in space, 1961



By 1959, some American observers had predicted that the Soviet Union would be the first to get a human into space because of the time needed to prepare for Mercury's first launch.[71] On April 12, 1961, the USSR surprised the world again by launching Yuri Gagarin into a single orbit around the Earth in a craft they called Vostok 1.[72] They dubbed Gagarin the first cosmonaut, roughly translated from Russian and Greek as "sailor of the universe". Although he had the ability to take control of his capsule in an emergency by opening an envelope he had in the cabin that contained a code that could be typed into the computer, it was flown in an automatic mode as a precaution; medical science at that time did not know what would happen to a human in the weightlessness of space.[72] Vostok 1 orbited the Earth for 108 minutes and made its reentry over the Soviet Union, with Gagarin ejecting from the spacecraft at 7,000 meters (23,000 ft), and landing by parachute.[72] The Fédération Aéronautique Internationale (International Federation of Aeronautics) credited Gagarin with the world's first human space flight, although their qualifying rules for aeronautical records at the time required pilots to take off and land with their craft. For this reason, the Soviet Union omitted from their FAI submission the fact that Gagarin did not land with his capsule. When the FAI filing for Gherman Titov's second Vostok flight in August 1961 disclosed the ejection landing technique, the FAI committee decided to investigate, and concluded that the technological accomplishment of human spaceflight lay in the safe launch, orbiting, and return, rather than the manner of landing, and revised their rules, keeping Gagarin's and Titov's records intact.[73]

Gagarin became a national hero of the Soviet Union and the Eastern Bloc, and a worldwide celebrity. Moscow and other cities in the USSR held mass demonstrations, the scale of which was second only to the World War II Victory Parade of 1945.[74] April 12 was declared Cosmonautics Day in the USSR, and is celebrated today in Russia as one of the official "Commemorative Dates of Russia."[75] In 2011, it was declared the International Day of Human Space Flight by the United Nations.[76]


	

	
Poyekhali!




Gagarin's voice


	
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The radio communication between the launch control room and Gagarin included the following dialogue at the moment of rocket launch:


Korolev: "Preliminary stage..... intermediate..... main..... lift off! We wish you a good flight. Everything is all right."
Gagarin: "Поехали!" (Poyekhali! – Let's go!).[77]


Gagarin's informal poyekhali! became a historical phrase in the Eastern Bloc, used to refer to the beginning of the human space flight era.[78][79]


First American in space[edit]

  
Alan Shepard, the first American in space, 1961



The US Air Force had been developing a program to launch the first man in space, named Man in Space Soonest. This program studied several different types of one-man space vehicles, settling on a ballistic re-entry capsule launched on a derivative Atlas missile, and selecting a group of nine candidate pilots. After NASA's creation, the program was transferred over to the civilian agency and renamed Project Mercury on November 26, 1958. NASA selected a new group of astronaut (from the Greek for "star sailor") candidates from Navy, Air Force and Marine test pilots, and narrowed this down to a group of seven for the program. Capsule design and astronaut training began immediately, working toward preliminary suborbital flights on the Redstone missile, followed by orbital flights on the Atlas. Each flight series would first start uncrewed, then carry a non-human primate, then finally humans.[citation needed]

On May 5, 1961, Alan Shepard became the first American in space, launching in a ballistic trajectory on Mercury-Redstone 3, in a spacecraft he named Freedom 7.[80] Though he did not achieve orbit like Gagarin, he was the first person to exercise manual control over his spacecraft's attitude and retro-rocket firing.[81] After his successful return, Shepard was celebrated as a national hero, honored with parades in Washington, New York and Los Angeles, and received the NASA Distinguished Service Medal from President John F. Kennedy.[82]


Kennedy aims for the Moon[edit]

See also: Moon landing



These are extraordinary times. And we face an extraordinary challenge. Our strength, as well as our convictions, have imposed upon this nation the role of leader in freedom's cause.
... if we are to win the battle that is now going on around the world between freedom and tyranny, the dramatic achievements in space which occurred in recent weeks should have made clear to us all, as did the Sputnik in 1957, the impact of this adventure on the minds of men everywhere, who are attempting to make a determination of which road they should take. ... Now it is time to take longer strides – time for a great new American enterprise – time for this nation to take a clearly leading role in space achievement, which in many ways may hold the key to our future on Earth.

... Recognizing the head start obtained by the Soviets with their large rocket engines, which gives them many months of lead-time, and recognizing the likelihood that they will exploit this lead for some time to come in still more impressive successes, we nevertheless are required to make new efforts on our own.


... I believe that this nation should commit itself to achieving the goal, before this decade is out, of landing a man on the Moon and returning him safely to the Earth. No single space project in this period will be more impressive to mankind, or more important for the long-range exploration of space, and none will be so difficult or expensive to accomplish.

John F. Kennedy,
Special Message to Congress on Urgent National Needs, May 25, 1961[83]




Before Gagarin's flight, US President John F. Kennedy's support for America's crewed space program was lukewarm. Jerome Wiesner of MIT, who served as a science advisor to presidents Eisenhower and Kennedy, and himself an opponent of crewed space exploration, remarked, "If Kennedy could have opted out of a big space program without hurting the country in his judgment, he would have."[84] As late as March 1961, when NASA administrator James E. Webb submitted a budget request to fund a Moon landing before 1970, Kennedy rejected it because it was simply too expensive.[85] Some were surprised by Kennedy's eventual support of NASA and the space program because of how often he had attacked the Eisenhower administration's inefficiency during the election.[86]

Gagarin's flight changed this; now Kennedy sensed the humiliation and fear on the part of the American public over the Soviet lead. Additionally, the Bay of Pigs invasion, planned before his term began but executed during it, was an embarrassment to his administration due to the colossal failure of the US forces.[87] Looking for something to save political face, he sent a memo dated April 20, 1961, to Vice President Lyndon B. Johnson, asking him to look into the state of America's space program, and into programs that could offer NASA the opportunity to catch up.[88] The two major options at the time were either the establishment of an Earth orbital space station or a crewed landing on the Moon. Johnson, in turn, consulted with von Braun, who answered Kennedy's questions based on his estimates of US and Soviet rocket lifting capability.[89] Based on this, Johnson responded to Kennedy, concluding that much more was needed to reach a position of leadership, and recommending that the crewed Moon landing was far enough in the future that the US had a fighting chance to achieve it first.[90]

Kennedy ultimately decided to pursue what became the Apollo program, and on May 25 took the opportunity to ask for Congressional support in a Cold War speech titled "Special Message on Urgent National Needs". Full text 
He justified the program in terms of its importance to national security, and its focus of the nation's energies on other scientific and social fields.[91] He rallied popular support for the program in his "We choose to go to the Moon" speech, on September 12, 1962, before a large crowd at Rice University Stadium, in Houston, Texas, near the construction site of the new Lyndon B. Johnson Space Center facility.[91] Full text 
Khrushchev responded to Kennedy's implicit challenge with silence, refusing to publicly confirm or deny the Soviets were pursuing a "Moon race". As later disclosed, the Soviet Union secretly pursued a crewed lunar program until 1974.[citation needed]


Completion of Vostok and Mercury programs[edit]

Mercury[edit]

  
John Glenn, the first American in orbit, 1962



American Virgil "Gus" Grissom repeated Shepard's suborbital flight in Liberty Bell 7 on July 21, 1961. Almost a year after the Soviet Union put a human into orbit, astronaut John Glenn became the first American to orbit the Earth, on February 20, 1962.[92] His Mercury-Atlas 6 mission completed three orbits in the Friendship 7 spacecraft, and splashed down safely in the Atlantic Ocean, after a tense reentry, due to what falsely appeared from the telemetry data to be a loose heat-shield.[92] As the first American in orbit, Glenn became a national hero, and received a ticker-tape parade in New York City, reminiscent of that given for Charles Lindbergh. On February 23, 1962, President Kennedy escorted him in a parade at Cape Canaveral Air Force Station, where he awarded Glenn with the NASA service medal.[citation needed]

The United States launched three more Mercury flights after Glenn's: Aurora 7 on May 24, 1962 duplicated Glenn's three orbits, Sigma 7 on October 3, 1962 six orbits, and Faith 7 on May 15, 1963 22 orbits (32.4 hours), the maximum capability of the spacecraft. NASA at first intended to launch one more mission, extending the spacecraft's endurance to three days, but since this would not beat the Soviet record, it was decided instead to concentrate on developing Project Gemini.[citation needed]


Vostok[edit]

  
Replica of the Vostok capsule



Gherman Titov became the first Soviet cosmonaut to exercise manual control of his Vostok 2 craft on August 6, 1961.[93] The Soviet Union demonstrated 24-hour launch pad turnaround and the capability to launch two piloted spacecraft, Vostok 3 and Vostok 4, in essentially identical orbits, on August 11 and 12, 1962.[94] The two spacecraft came within approximately 6.5 kilometers (4.0 mi) of one another, close enough for radio communication.[95] Vostok 4 also set a record of nearly four days in space. Though the two craft's orbits were as nearly identical as possible given the accuracy of the launch rocket's guidance system, slight variations still existed which drew the two craft at first as close to each other as 6.5 kilometers (3.5 nautical miles), then as far apart as 2,850 kilometers (1,540 nautical miles). There were no maneuvering rockets on the Vostok to permit space rendezvous, required to keep two spacecraft a controlled distance apart.[96]


  
Valentina Tereshkova



The Soviet Union duplicated its dual-launch feat with Vostok 5 and Vostok 6 (June 16, 1963). This time they launched the first woman (also the first civilian), Valentina Tereshkova, into space on Vostok 6.[97] Launching a woman was reportedly Korolev's idea, and it was accomplished purely for propaganda value.[97] Tereshkova was one of a small corps of female cosmonauts who were amateur parachutists, but Tereshkova was the only one to fly.[97] The USSR didn't again open its cosmonaut corps to women until 1980, two years after the United States opened its astronaut corps to women.

The Soviets kept the details and true appearance of the Vostok capsule secret until the April 1965 Moscow Economic Exhibition, where it was first displayed without its aerodynamic nose cone concealing the spherical capsule. The "Vostok spaceship" had been first displayed at the July 1961 Tushino air show, mounted on its launch vehicle's third stage, with the nose cone in place. A tail section with eight fins was also added, in an apparent attempt to confuse western observers. This spurious tail section also appeared on official commemorative stamps and a documentary.[98]


Kennedy proposes a joint US-USSR program[edit]

After a first US-USSR Dryden-Blagonravov agreement and cooperation on the Echo II balloon satellite in 1962,[7] President Kennedy proposed on September 20, 1963, in a speech before the United Nations General Assembly, that the United States and the Soviet Union join forces in an effort to reach the Moon. Kennedy thus changed his mind regarding the desirability of the space race, preferring instead to ease tensions with the Soviet Union by cooperating on projects such as a joint lunar landing.[99]  Soviet Premier Nikita Khrushchev initially rejected Kennedy's proposal.[100] However, on October 2, 1997, it was reported that Khrushchev's son Sergei claimed Khrushchev was poised to accept Kennedy's proposal at the time of Kennedy's assassination on November 22, 1963. During the next few weeks he reportedly concluded that both nations might realize cost benefits and technological gains from a joint venture, and decided to accept Kennedy's offer based on a measure of rapport during their years as leaders of the world's two superpowers, but changed his mind and dropped the idea since he did not have the same trust for Kennedy's successor, Lyndon Johnson.[100]

Some cooperation in uncrewed space exploration nevertheless did take place,[101] such as a combined Venera 4–Mariner 5 data analysis under a joint Soviet–American working group of COSPAR in 1969, allowing a more complete drawing of the profile of the atmosphere of Venus.[102][103]

As President, Johnson steadfastly pursued the Gemini and Apollo programs, promoting them as Kennedy's legacy to the American public. One week after Kennedy's death, he issued an executive order renaming the Cape Canaveral and Apollo launch facilities after Kennedy.[citation needed]


Gemini and Voskhod[edit]

Focused by the commitment to a Moon landing, in January 1962 the US announced Project Gemini, a two-person spacecraft that would support the later three-person Apollo by developing the key spaceflight technologies of space rendezvous and docking of two craft, flight durations of sufficient length to simulate going to the Moon and back, and extra-vehicular activity to accomplish useful work outside the spacecraft.[104]

Meanwhile, Korolev had planned further, long-term missions for the Vostok spacecraft, and had four Vostoks in various stages of fabrication in late 1963 at his OKB-1 facilities.[105] At that time, the Americans announced their ambitious plans for the Project Gemini flight schedule. These plans included major advancements in spacecraft capabilities, including a two-person spacecraft, the ability to change orbits, the capacity to perform an extravehicular activity (EVA), and the goal of docking with another spacecraft.[48] These represented major advances over the previous Mercury or Vostok capsules, and Korolev felt the need to try to beat the Americans to many of these innovations.[105] Korolev already had begun designing the Vostok's replacement, the next-generation Soyuz spacecraft, a multi-cosmonaut spacecraft that had at least the same capabilities as the Gemini spacecraft.[106] Soyuz would not be available for at least three years, and it could not be called upon to deal with this new American challenge in 1964 or 1965.[107] Political pressure in early 1964 – which some sources claim was from Khrushchev while other sources claim was from other Communist Party officials – pushed him to modify his four remaining Vostoks to beat the Americans to new space firsts in the size of flight crews, and the duration of missions.[105]


Voskhod program[edit]

Main article: Voskhod programme

  
The Voskhod 1 and 2 space capsules



The greater advances of the Soviet space program at the time allowed their space program to achieve other significant firsts, including the first ever "spacewalk". Gemini took a year longer than planned to accomplish its first flight, allowing the Soviets to achieve another first, launching the first spacecraft with a three-cosmonaut crew, Voskhod 1, on October 12, 1964.[108] The USSR touted another technological achievement during this mission: it was the first space flight during which cosmonauts performed in a shirt-sleeve-environment.[109] However, flying without spacesuits was not due to safety improvements in the Soviet spacecraft's environmental systems; rather this innovation was accomplished because the craft's limited cabin space did not allow for spacesuits. Flying without spacesuits exposed the cosmonauts to significant risk in the event of potentially fatal cabin depressurization.[109] This feat was not repeated until the US Apollo Command Module flew in 1968; this later mission was designed from the outset to safely transport three astronauts in a shirt-sleeve environment while in space.[citation needed]

By October 16, 1964, Leonid Brezhnev and a small cadre of high-ranking Communist Party officials deposed Khrushchev as Soviet government leader a day after Voskhod 1 landed, in what was called the "Wednesday conspiracy".[110]
The new political leaders, along with Korolev, ended the technologically troublesome Voskhod program, cancelling Voskhod 3 and 4, which were in the planning stages, and started concentrating on reaching the Moon.[111] Voskhod 2 ended up being Korolev's final achievement before his death on January 14, 1966, as it became the last of the many space firsts that demonstrated the USSR's domination in spacecraft technology during the early 1960s. According to historian Asif Siddiqi, Korolev's accomplishments marked "the absolute zenith of the Soviet space program, one never, ever attained since."[112] There was a two-year pause in Soviet piloted space flights while Voskhod's replacement, the Soyuz spacecraft, was designed and developed.[113]

On March 18, 1965, about a week before the first piloted Project Gemini space flight, the USSR launched the two-cosmonaut Voskhod 2 mission with Pavel Belyayev and Alexei Leonov.[114] Voskhod 2's design modifications included the addition of an inflatable airlock to allow for extravehicular activity (EVA), also known as a spacewalk, while keeping the cabin pressurized so that the capsule's electronics would not overheat.[115] Leonov performed the first-ever EVA as part of the mission.[114] A fatality was narrowly avoided when Leonov's spacesuit expanded in the vacuum of space, preventing him from re-entering the airlock.[116] In order to overcome this, he had to partially depressurize his spacesuit to a potentially dangerous level.[116] He succeeded in safely re-entering the ship, but he and Belyayev faced further challenges when the spacecraft's atmospheric controls flooded the cabin with 45% pure oxygen, which had to be lowered to acceptable levels before re-entry.[117] The reentry involved two more challenges: an improperly timed retrorocket firing caused the Voskhod 2 to land 386 kilometers (240 mi) off its designated target area, the city of Perm; and the instrument compartment's failure to detach from the descent apparatus caused the spacecraft to become unstable during reentry.[117]


  
Progress in the Space Race, showing the US passing the Soviets in 1965




Project Gemini[edit]

Main article: Project Gemini

  
Rendezvous of Gemini 6 and 7, December 1965



Though delayed a year to reach its first flight, Gemini was able to take advantage of the USSR's two-year hiatus after Voskhod, which enabled the US to catch up and surpass the previous Soviet lead in piloted spaceflight. Gemini achieved several significant firsts during the course of ten piloted missions:


	On Gemini 3 (March 1965), astronauts Virgil "Gus" Grissom and John W. Young became the first to demonstrate their ability to change their craft's orbit.
	On Gemini 4 (June 1965), Ed White performed the first US spacewalk.
	On Gemini 5 (August 1965), astronauts L. Gordon Cooper and Charles "Pete" Conrad set a record of almost eight days in space, long enough for a piloted lunar mission.
	On Gemini 6A (December 1965), Command Pilot Wally Schirra achieved the first space rendezvous with Gemini 7, accurately matching his orbit to that of the other craft, station-keeping for three consecutive orbits at distances as close as 1 foot (0.30 m).[118]
	Gemini 7 also set a human spaceflight endurance record of fourteen days for Frank Borman and James A. Lovell, which stood until both nations started launching space laboratories in the early 1970s.
	On Gemini 8 (March 1966), Command Pilot Neil Armstrong achieved the first docking between two spacecraft, his Gemini craft and an Agena target vehicle.
	Gemini 11 (September 1966), commanded by Conrad, achieved the first direct-ascent rendezvous with its Agena target on the first orbit, and used the Agena's rocket to achieve an apogee of 742 nautical miles (1,374 km), the crewed Earth orbit record still current as of 2015.
	On Gemini 12 (November 1966), Edwin "Buzz" Aldrin spent over five hours working comfortably during three (EVA) sessions, finally proving that humans could perform productive tasks outside their spacecraft.


Most of the novice pilots on the early missions would command the later missions. In this way, Project Gemini built up spaceflight experience for the pool of astronauts for the Apollo lunar missions.


Soviet crewed Moon programs[edit]

Main article: Soviet crewed lunar programs



Soyuz 7K-L3 (Lunniy Orbitalny Korabl), alongside the Apollo Command/Service Module to scale



LK lunar lander (Lunniy Korabl), alongside the Apollo Lunar Module to scale





Korolev's design bureau produced two prospectuses for circumlunar spaceflight (March 1962 and May 1963), the main spacecraft for which were early versions of his Soyuz design. Soviet Communist Party Central Committee Command 655-268 officially established two secret, competing crewed programs for circumlunar flights and lunar landings, on August 3, 1964. The circumlunar flights were planned to occur in 1967, and the landings to start in 1968.[119]

The circumlunar program (Zond), created by Vladimir Chelomey's design bureau OKB-52, was to fly two cosmonauts in a stripped-down Soyuz 7K-L1, launched by Chelomey's Proton UR-500 rocket. The Zond sacrificed habitable cabin volume for equipment, by omitting the Soyuz orbital module. Chelomey gained favor with Khrushchev by employing members of his family.

Korolev's lunar landing program was designated N1/L3, for its N1 super rocket and a more advanced Soyuz 7K-L3 spacecraft, also known as the lunar orbital module ("Lunniy Orbitalny Korabl", LOK), with a crew of two. A separate lunar lander ("Lunniy Korabl", LK), would carry a single cosmonaut to the lunar surface.[119]

The N1/L3 launch vehicle had three stages to Earth orbit, a fourth stage for Earth departure, and a fifth stage for lunar landing assist. The combined space vehicle was roughly the same height and takeoff mass as the three-stage US Apollo/ Saturn V and exceeded its takeoff thrust by 28%, but had only roughly half the translunar injection payload capability.[citation needed]

Following Khrushchev's ouster from power, Chelomey's Zond program was merged into the N1/L3 program.[citation needed]


Outer space treaty[edit]

The US and USSR began discussions on the peaceful uses of space as early as 1958, presenting issues for debate to the United Nations,[120][121][122] which created a Committee on the Peaceful Uses of Outer Space in 1959.[123]

On May 10, 1962, Vice President Johnson addressed the Second National Conference on the Peaceful Uses of Space revealing that the United States and the USSR both supported a resolution passed by the Political Committee of the UN General Assembly in December 1962, which not only urged member nations to "extend the rules of international law to outer space," but to also cooperate in its exploration. Following the passing of this resolution, Kennedy commenced his communications proposing a cooperative American/Soviet space program.[124]

The UN ultimately created a Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, including the Moon and Other Celestial Bodies, which was signed by the United States, USSR, and the United Kingdom on January 27, 1967, and went into force the following October 10.[citation needed]


		Wikisource has original text related to this article:
Outer Space Treaty of 1967



This treaty:


	bars party States from placing weapons of mass destruction in Earth orbit, on the Moon, or any other celestial body;
	exclusively limits the use of the Moon and other celestial bodies to peaceful purposes, and expressly prohibits their use for testing weapons of any kind, conducting military maneuvers, or establishing military bases, installations, and fortifications;
	declares that the exploration of outer space shall be done to benefit all countries and shall be free for exploration and use by all the States;
	explicitly forbids any government from claiming a celestial resource such as the Moon or a planet, claiming that they are the common heritage of mankind, "not subject to national appropriation by claim of sovereignty, by means of use or occupation, or by any other means". However, the State that launches a space object retains jurisdiction and control over that object;
	holds any State liable for damages caused by their space object;
	declares that "the activities of non-governmental entities in outer space, including the Moon and other celestial bodies, shall require authorization and continuing supervision by the appropriate State Party to the Treaty", and "States Parties shall bear international responsibility for national space activities whether carried out by governmental or non-governmental entities"; and
	"A State Party to the Treaty which has reason to believe that an activity or experiment planned by another State Party in outer space, including the Moon and other celestial bodies, would cause potentially harmful interference with activities in the peaceful exploration and use of outer space, including the Moon and other celestial bodies, may request consultation concerning the activity or experiment."


The treaty remains in force, signed by 107 member states. – As of July 2017[update]


Disaster strikes both sides[edit]

In 1967, both nations faced serious challenges that brought their programs to temporary halts. Both had been rushing at full-speed toward the first piloted flights of Apollo and Soyuz, without paying due diligence to growing design and manufacturing problems. The results proved fatal to both pioneering crews.


  
Charred interior of the Apollo 1 spacecraft after the fire that killed the first crew



On January 27, 1967, the same day the US and USSR signed the Outer Space Treaty, the crew of the first crewed Apollo mission, Command Pilot Virgil "Gus" Grissom, Senior Pilot Ed White, and Pilot Roger Chaffee, were killed in a fire that swept through their spacecraft cabin during a ground test, less than a month before the planned February 21 launch. An investigative board determined the fire was probably caused by an electrical spark and quickly grew out of control, fed by the spacecraft's pure oxygen atmosphere. Crew escape was made impossible by inability to open the plug door hatch cover against the greater-than-atmospheric internal pressure.[125] The board also found design and construction flaws in the spacecraft, and procedural failings, including failure to appreciate the hazard of the pure-oxygen atmosphere, as well as inadequate safety procedures.[125] All these flaws had to be corrected over the next twenty-two months until the first piloted flight could be made.[125]
Mercury and Gemini veteran Grissom had been a favored choice of Deke Slayton, NASA's Director of Flight Crew Operations, to make the first piloted landing.[citation needed]


  
Commemorative plaque and the Fallen Astronaut sculpture left on the Moon in 1971 by the crew of Apollo 15 in memory of 14 deceased NASA astronauts and USSR cosmonauts



On April 24, 1967, the single pilot of Soyuz 1, Vladimir Komarov, became the first in-flight spaceflight fatality. The mission was planned to be a three-day test, to include the first Soviet docking with an unpiloted Soyuz 2, but the mission was plagued with problems. Early on, Komarov's craft lacked sufficient electrical power because only one of two solar panels had deployed. Then the automatic attitude control system began malfunctioning and eventually failed completely, resulting in the craft spinning wildly. Komarov was able to stop the spin with the manual system, which was only partially effective. The flight controllers aborted his mission after only one day. During the emergency re-entry, a fault in the landing parachute system caused the primary chute to fail, and the reserve chute became tangled with the drogue chute, causing descent speed to reach as high as 40 m/s (140 km/h; 89 mph). Shortly thereafter, Soyuz 1 impacted the ground 3 km (1.9 mi) west of Karabutak, exploding into a ball of flames. The official autopsy states Komarov died of blunt force trauma on impact, and that the subsequent heat mutilation of his corpse was a result of the explosive impact. Fixing the spacecraft's faults caused an eighteen-month delay before piloted Soyuz flights could resume.[citation needed]


Onward to the Moon[edit]

The United States recovered from the Apollo 1 fire, fixing the fatal flaws in an improved version of the Block II command module. The US proceeded with unpiloted test launches of the Saturn V launch vehicle (Apollo 4 and Apollo 6) and the Lunar Module (Apollo 5) during the latter half of 1967 and early 1968.[126] Apollo 1's mission to check out the Apollo Command/Service Module in Earth orbit was accomplished by Grissom's backup crew commanded by Walter Schirra on Apollo 7, launched on October 11, 1968.[127] The eleven-day mission was a total success, as the spacecraft performed a virtually flawless mission, paving the way for the United States to continue with its lunar mission schedule.[128]


  
Soyuz 4 and Soyuz 5 after docking, artist view



The Soviet Union also fixed the parachute and control problems with Soyuz, and the next piloted mission Soyuz 3 was launched on October 26, 1968.[129] The goal was to complete Komarov's rendezvous and docking mission with the un-piloted Soyuz 2.[129] Ground controllers brought the two craft to within 200 meters (660 ft) of each other, then cosmonaut Georgy Beregovoy took control.[129] He got within 40 meters (130 ft) of his target, but was unable to dock before expending 90 percent of his maneuvering fuel, due to a piloting error that put his spacecraft into the wrong orientation and forced Soyuz 2 to automatically turn away from his approaching craft.[129] The first docking of Soviet spacecraft was finally realized in January 1969 by the Soyuz 4 and Soyuz 5 missions. It was the first-ever docking of two crewed spacecraft, and the first transfer of crew from one space vehicle to another.[130]


  
Soyuz 7K-L1 Zond spacecraft, artist view



The Soviet Zond spacecraft was not yet ready for piloted circumlunar missions in 1968, after five[verification needed] unsuccessful and partially successful automated test launches: Cosmos 146 on March 10, 1967; Cosmos 154 on April 8, 1967; Zond 1967A September 27, 1967; Zond 1967B on November 22, 1967.[131] Zond 4 was launched on March 2, 1968, and successfully made a circumlunar flight.[132] After its successful flight around the Moon, Zond 4 encountered problems with its Earth reentry on March 9, and was ordered destroyed by an explosive charge 15,000 meters (49,000 ft) over the Gulf of Guinea.[133] The Soviet official announcement said that Zond 4 was an automated test flight which ended with its intentional destruction, due to its recovery trajectory positioning it over the Atlantic Ocean instead of over the USSR.[132]


  
Earthrise, as seen from Apollo 8, December 24, 1968 (photograph by astronaut William Anders)



During the summer of 1968, the Apollo program hit another snag: the first pilot-rated Lunar Module (LM) was not ready for orbital tests in time for a December 1968 launch. NASA planners overcame this challenge by changing the mission flight order, delaying the first LM flight until March 1969, and sending Apollo 8 into lunar orbit without the LM in December.[134] This mission was in part motivated by intelligence rumors the Soviet Union might be ready for a piloted Zond flight during late 1968.[135] In September 1968, Zond 5 made a circumlunar flight with tortoises on board and returned safely to Earth, accomplishing the first successful water landing of the Soviet space program in the Indian Ocean.[136] It also scared NASA planners, as it took them several days to figure out that it was only an automated flight, not piloted, because voice recordings were transmitted from the craft en route to the Moon.[137] On November 10, 1968, another automated test flight, Zond 6, was launched. It encountered difficulties in Earth reentry, and depressurized and deployed its parachute too early, causing it to crash-land only 16 kilometers (9.9 mi) from where it had been launched six days earlier.[138] It turned out there was no chance of a piloted Soviet circumlunar flight during 1968, due to the unreliability of the Zonds.[139]


  
Lunar Module in lunar orbit on Apollo 10, May 22–23, 1969



On December 21, 1968, Frank Borman, James Lovell, and William Anders became the first humans to ride the Saturn V rocket into space, on Apollo 8. They also became the first to leave low-Earth orbit and go to another celestial body, entering lunar orbit on December 24.[140] They made ten orbits in twenty hours, and transmitted one of the most watched TV broadcasts in history, with their Christmas Eve program from lunar orbit, which concluded with a reading from the biblical Book of Genesis.[140] Two and a half hours after the broadcast, they fired their engine to perform the first trans-Earth injection to leave lunar orbit and return to the Earth.[140] Apollo 8 safely landed in the Pacific Ocean on December 27, in NASA's first dawn splashdown and recovery.[140]

The American Lunar Module was finally ready for a successful piloted test flight in low Earth orbit on Apollo 9 in March 1969. The next mission, Apollo 10, conducted a "dress rehearsal" for the first landing in May 1969, flying the LM in lunar orbit as close as 47,400 feet (14.4 km) above the surface, the point where the powered descent to the surface would begin.[141] With the LM proven to work well, the next step was to attempt the landing.

Unknown to the Americans, the Soviet Moon program was in deep trouble.[139] After two successive launch failures of the N1 rocket in 1969, Soviet plans for a piloted landing suffered delay.[142] The launch pad explosion of the N-1 on July 3, 1969, was a significant setback.[143] The rocket hit the pad after an engine shutdown, destroying itself and the launch facility.[143] Without the N-1 rocket, the USSR could not send a large enough payload to the Moon to land a human and return him safely.[144]


Apollo 11[edit]

Main article: Apollo 11

  
American Buzz Aldrin during the first Moon walk in 1969



Apollo 11 was prepared with the goal of a July landing in the Sea of Tranquility.[145] The crew, selected in January 1969, consisted of commander (CDR) Neil Armstrong, Command Module Pilot (CMP) Michael Collins, and Lunar Module Pilot (LMP) Edwin "Buzz" Aldrin.[146] They trained for the mission until just before the launch day.[147] On July 16, 1969, at exactly 9:32 am EDT, the Saturn V rocket, AS-506, lifted off from Kennedy Space Center Launch Complex 39 in Florida.[148]

The trip to the Moon took just over three days.[149] After achieving orbit, Armstrong and Aldrin transferred into the Lunar Module, named Eagle, and after a landing gear inspection by Collins remaining in the Command/Service Module Columbia, began their descent. After overcoming several computer overload alarms caused by an antenna switch left in the wrong position, and a slight downrange error, Armstrong took over manual flight control at about 180 meters (590 ft), and guided the Lunar Module to a safe landing spot at 20:18:04 UTC, July 20, 1969 (3:17:04 pm CDT). The first humans on the Moon waited six hours before they left their craft. At 02:56 UTC, July 21 (9:56 pm CDT July 20), Armstrong became the first human to set foot on the Moon.[150]


	

	
Neil Armstrong's historic first words on the Moon.




"That's one small step for [a] man, one giant leap for mankind."


	
Problems playing this file? See media help.


The first step was witnessed by at least one-fifth of the population of Earth, or about 723 million people.[151] His first words when he stepped off the LM's landing footpad were, "That's one small step for [a] man, one giant leap for mankind."[150] Aldrin joined him on the surface almost 20 minutes later.[152] Altogether, they spent just under two and one-quarter hours outside their craft.[153] The next day, they performed the first launch from another celestial body, and rendezvoused back with Columbia.[154]

Apollo 11 left lunar orbit and returned to Earth, landing safely in the Pacific Ocean on July 24, 1969.[155] When the spacecraft splashed down, 2,982 days had passed since Kennedy's commitment to landing a man on the Moon and returning him safely to the Earth before the end of the decade; the mission was completed with 161 days to spare.[156] With the safe completion of the Apollo 11 mission, the Americans won the race to the Moon.[157]


Competition winds down[edit]

  
Apollo 17's Saturn V in 1972



  
Moonwalk, December 13, 1972



NASA had ambitious follow-on human spaceflight plans as it reached its lunar goal, but soon discovered it had expended most of its political capital to do so.[158]

The first landing was followed by another, precision landing on Apollo 12 in November 1969. NASA had achieved its first landing goal with enough Apollo spacecraft and Saturn V launchers left for eight follow-on lunar landings through Apollo 20, conducting extended-endurance missions and transporting the landing crews in Lunar Roving Vehicles on the last five. They also planned an Apollo Applications Program to develop a longer-duration Earth orbital workshop (later named Skylab) to be constructed in orbit from a spent S-IVB upper stage, using several launches of the smaller Saturn IB launch vehicle. But planners soon decided this could be done more efficiently by using the two live stages of a Saturn V to launch the workshop pre-fabricated from an S-IVB (which was also the Saturn V third stage), which immediately removed Apollo 20. Budget cuts soon led NASA to cut Apollo 18 and 19 as well, but keep three extended/Lunar Rover missions. Apollo 13 encountered an in-flight spacecraft failure and had to abort its lunar landing in April 1970, returning its crew safely but temporarily grounding the program again. It resumed with four successful landings on Apollo 14 (February 1971), Apollo 15 (July 1971), Apollo 16 (April 1972), and Apollo 17 (December 1972).

In February 1969, President Richard M. Nixon convened a Space Task Group to set recommendations for the future US civilian space program, headed by his Vice President Spiro T. Agnew.[159] Agnew was an enthusiastic proponent of NASA's follow-on plans, and the STG recommended plans to develop a reusable Space Transportation System including a Space Shuttle, which would facilitate development of permanent space stations in Earth and lunar orbit, perhaps a base on the lunar surface, and the first human flight to Mars as early as 1986 or as late as 2000.[160] Nixon had a better sense of the declining political support in Congress for a new Apollo-style program, which had disappeared with the achievement of the landing, and he intended to pursue detente with the USSR and China, which he hoped might ease Cold War tensions. He cut the spending proposal he sent to Congress to include funding for only the Space Shuttle, with perhaps an option to pursue the Earth orbital space station for the foreseeable future.[161]

The USSR continued trying to perfect their N1 rocket, finally canceling it in 1976, after two more launch failures in 1971 and 1972.[162]


Salyuts and Skylab[edit]

  
The Soyuz 11 crew with the Salyut station in the background, in a Soviet commemorative stamp



Having lost the race to the Moon, the USSR decided to concentrate on orbital space stations. During 1969 and 1970, they launched six more Soyuz flights after Soyuz 3, then launched the first space station, the Salyut 1 laboratory designed by Kerim Kerimov, on April 19, 1971.  Three days later, the Soyuz 10 crew attempted to dock with it, but failed to achieve a secure enough connection to safely enter the station. The Soyuz 11 crew of Vladislav Volkov, Georgi Dobrovolski and Viktor Patsayev successfully docked on June 7, and completed a record 22-day stay. The crew became the second in-flight space fatality during their reentry on June 30. They were asphyxiated when their spacecraft's cabin lost all pressure, shortly after undocking. The disaster was blamed on a faulty cabin pressure valve, that allowed all the air to vent into space. The crew was not wearing pressure suits and had no chance of survival once the leak occurred.[citation needed]

Salyut 1's orbit was increased to prevent premature reentry, but further piloted flights were delayed while the Soyuz was redesigned to fix the new safety problem. The station re-entered the Earth's atmosphere on October 11, after 175 days in orbit. The USSR attempted to launch a second Salyut-class station designated Durable Orbital Station-2 (DOS-2) on July 29, 1972, but a rocket failure caused it to fail to achieve orbit. After the DOS-2 failure, the USSR attempted to launch four more Salyut-class stations up to 1975, with another failure due to an explosion of the final rocket stage, which punctured the station with shrapnel so that it would not hold pressure. All of the Salyuts were presented to the public as non-military scientific laboratories, but some of them were covers for the military Almaz reconnaissance stations.[citation needed]

The United States launched the orbital workstation Skylab 1 on May 14, 1973. It weighed 169,950 pounds (77,090 kg), was 58 feet (18 m) long by 21.7 feet (6.6 m) in diameter, and had a habitable volume of 10,000 cubic feet (280 m3). Skylab was damaged during the ascent to orbit, losing one of its solar panels and a meteoroid thermal shield. Subsequent crewed missions repaired the station, and the final mission's crew, Skylab 4, set a human endurance record with 84 days in orbit when the mission ended on February 8, 1974. Skylab stayed in orbit another five years before reentering the Earth's atmosphere over the Indian Ocean and Western Australia on July 11, 1979.[citation needed]


Apollo–Soyuz Test Project[edit]

Main article: Apollo-Soyuz Test Project

  
Apollo-Soyuz crew: From left to right: Donald "Deke" Slayton, Thomas Patten Stafford, Vance Brand, Alexei Leonov, and Valeri Kubasov



In May 1972, President Richard M. Nixon and Soviet Premier Leonid Brezhnev negotiated an easing of relations known as détente, creating a temporary "thaw" in the Cold War. The time seemed right for cooperation rather than competition, and the notion of a continuing "race" began to subside.[citation needed]

The two nations planned a joint mission to dock the last US Apollo craft with a Soyuz, known as the Apollo-Soyuz Test Project (ASTP). To prepare, the US designed a docking module for the Apollo that was compatible with the Soviet docking system, which allowed any of their craft to dock with any other (e.g. Soyuz/Soyuz as well as Soyuz/Salyut). The module was also necessary as an airlock to allow the men to visit each other's craft, which had incompatible cabin atmospheres. The USSR used the Soyuz 16 mission in December 1974 to prepare for ASTP.[citation needed]

The joint mission began when Soyuz 19 was first launched on July 15, 1975, at 12:20 UTC, and the Apollo craft was launched with the docking module six and a half hours later. The two craft rendezvoused and docked on July 17 at 16:19 UTC. The three astronauts conducted joint experiments with the two cosmonauts, and the crew shook hands, exchanged gifts, and visited each other's craft.[citation needed]


Legacy[edit]

Human spaceflight after Apollo[edit]

  
International Space Station in 2010



In the 1970s, the United States began developing the reusable orbital Space Shuttle spaceplane, and launched a range of uncrewed probes. The USSR continued to develop space station technology with the Salyut program and Mir ('Peace' or 'World', depending on the context) space station, supported by Soyuz spacecraft. They developed their own large spaceplane under the Buran program. The USSR dissolved in 1991 and the remains of its space program mainly passed to Russia. The United States and Russia have worked together in space with the Shuttle–Mir Program, and again with the International Space Station.[163]

The Russian R-7 rocket family, which launched the first Sputnik at the beginning of the Space Race, is still in use today. It services the International Space Station (ISS) as the launcher for both the Soyuz and Progress spacecraft. It also ferries both Russian and American crews to and from the station.[citation needed]

Currently, the US Commercial Crew Development and Artemis program are intended to result in the development of a variety of crewed spacecraft. Russia is also developing a Soyuz replacement, and China has sent crewed Shenzhou spacecraft to orbit.[citation needed]


Political legacy[edit]

The imagery of the Space Race has remained poignant in the popular imagination of many nations even after the fall of the Soviet Union. In August 2020 Russia announced that they were releasing a vaccine for COVID-19 skipping multiple stages of clinical trials, referring to it as the "Sputnik vaccine" to capture the sense of pride still felt by Russians from their victories in the Space Race. [164]


See also[edit]


	Space portal
	Spaceflight portal




	Billionaire space race
	Cold War playground equipment
	Comparison of Asian national space programs – a so-called "Asian space race"
	History of spaceflight
	List of space exploration milestones, 1957–1969
	Moon Landing
	Moon Shot
	Space advocacy
	Space exploration
	Space policy
	Space propaganda
	Spaceflight records
	SEDS
	Timeline of Solar System exploration
	Timeline of space exploration
	Timeline of the Space Race
	Woods Hole Conference
	Mars race




Notes[edit]


	^ history.com, Space Race

	^ history.com, From Sputnik to Spacewalking: 7 Soviet Space Firsts, Oct 4, 2012

	^ "Apollo 11 Command and Service Module (CSM)". NASA Space Science Data Coordinated Archive. Retrieved November 20, 2019.

	^ 
"Apollo 11 Lunar Module / EASEP". NASA Space Science Data Coordinated Archive. Retrieved November 20, 2019.

	^ 
"Apollo 11 Mission Summary". Smithsonian Air and Space Museum.

	^ 
Williams, David R. (December 11, 2003). "Apollo Landing Site Coordinates". NASA Space Science Data Coordinated Archive. NASA. Retrieved September 7, 2013.

	^ a b 
U.S.-Soviet Cooperation in Space (PDF) (Report). US Congress, Office of Technology Assessment. July 1985. pp. 80–81. Retrieved June 13, 2018.

	^ 
Samuels, Richard J., ed. (2005). Encyclopedia of United States National Security (1st ed.). Sage Publications. p. 669. ISBN 978-0-7619-2927-7. 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.

	^ 

Boyle, Alan (March 23, 2001). "Russia bids farewell to Mir". NBC News. New York. Archived from the original on June 15, 2015. Retrieved June 13, 2015.

	^ 

Garcia, Mark (April 30, 2015). "ISS Facts and Figures". International Space Station. NASA. Archived from the original on June 3, 2015. Retrieved June 13, 2015.

	^ 
"Applications of space technology for the elderly and handicapped joint hearings before the Select Committee on Aging and the Committee on Science and Technology, U.S. House of Representatives, Ninety-sixth Congress, first session, July 19 and 20, 1979". U.S. Congress. July 20, 1979. hdl:2027/mdp.39015083085392. Cite journal requires |journal= (help)

	^ NASA Spinoff 2019 Retrieved August 1, 2019

	^ 
"NASA Technology Transfer Portal".

	^ 
"Spinoff Frequently Asked Questions". NASA.gov. Archived from the original on November 25, 2014. Retrieved November 19, 2014.

	^ 
Neufeld, Michael J (1995). The Rocket and the Reich: Peenemünde and the Coming of the Ballistic Missile Era. New York: The Free Press. pp. 158, 160–62, 190.

	^ Cornwell (2003), p. 147

	^ Cornwell (2004), p. 146

	^ Cornwell (2003), p. 148

	^ Cornwell (2003), p. 150

	^ Burrows (1998), p. 96

	^ Burrows (1998), pp. 99–100

	^ Burrows (1998), pp. 98–99

	^ Stocker (2004), pp. 12–24

	^ Gainor (2001), p. 68

	^ a b Schefter (1999), p. 29

	^ Siddiqi (2003a), p. 41

	^ Siddiqi (2003a), p. 24–41

	^ a b Siddiqi (2003a), pp. 24–34

	^ Siddiqi (2003a), pp. 4, 11, 16

	^ a b c Schefter (1999), pp. 7–10

	^ a b Siddiqi (2003a), p. 45

	^ a b Gatland (1976), pp. 100–01

	^ a b c 
Wade, Mark. "Early Russian Ballistic Missiles". Encyclopedia Astronautix. Archived from the original on October 16, 2006. Retrieved July 24, 2010.

	^ 
"Development of guided missiles at Bleicherode and Institut 88" (PDF). CIA Historical Collection. January 22, 1954. Retrieved September 4, 2019. Besides this love for rocket technique, there exists a second mental consideration which affects Soviet decisions, and that is respect for work in the West, especially German work. Data emanating from Germany were regarded as almost sacrosanct.

	^ Goddard's 1919 research paper A Method of Reaching Extreme Altitudes was famously ridiculed in a New York Times editorial.

	^ Burrows (1998), p. 123

	^ a b Burrows (1998), pp. 129–34

	^ a b c Burrows (1998), p. 137

	^ a b Schmitz, (1999), pp. 149–54

	^ a b c d e f Burrows (2012), pp. 147–49

	^ Polmer and Laur (1990), pp. 229–41

	^ a b Burrows (1998), pp. 149–51

	^ Hall & Shayler (2001), p. 56

	^ Siddiqi (2003a), pp. 468–69

	^ a b c d e 
Wade, Mark. "Atlas". Encyclopedia Astronautix. Retrieved September 28, 2020.

	^ 
Koman, Rita G. (January 1, 1994). "Man on the Moon: The U.S. Space Program as a Cold War Maneuver". OAH Magazine of History. 8 (2): 42–50. doi:10.1093/maghis/8.2.42. JSTOR 25162945.

	^ Burrows (1998), p. 138

	^ a b Siddiqi (2003a), p. 383

	^ a b c d e Schefter (1999), pp. 3–5

	^ a b Schefter (1999), p. 8

	^ Schefter (1999), p. 6

	^ a b c Schefter (1999), pp. 15–18

	^ a b Cadbury (2006), pp. 154–57

	^ a b Siddiqi (2003a), p. 151

	^ Siddiqi (2003a), p. 155

	^ 
Garber, Steve (October 10, 2007). "Sputnik and The Dawn of the Space Age". Sputnik 50th Anniversary. Washington: NASA History Website.

	^ Hardesty (2007), pp. 72–73

	^ a b c Siddiqi (2003a), pp. 163–68

	^ a b c Cadbury (2006), p. 163

	^ a b Hardesty (2007), p. 74

	^ Cadbury (2006), pp. 164–65

	^ 
Crompton, Samuel (2007). Sputnik/Explorer I: The Race to Conquer Space. New York City: Chelsea House Publications. p. 4. ISBN 978-0791093573.

	^ a b Brzezinski (2007), pp. 254–67

	^ a b O'Neill, Terry. The Nuclear Age. San Diego: Greenhaven, Inc., 2002.(146)

	^ Knapp, Brian. Journey into Space. Danbury: Grolier, 2004.(17)

	^ Barnett, Nicholas. '"Russia Wins Space Race": The British Press and the Sputnik Moment', Media History, (2013) 19:2, 182–95.

	^ a b c 
Nicogossian, Arnauld E. (1993). Space Biology and Medicine: Space and Its Exploration. Washington, DC.: American Institute of Aeronautics. p. 285.

	^ 
Angelo, Joseph, A. (2006). Encyclopedia of Space Astronomy. New York: Facts on Files, Inc. p. 634.

	^ 
Angelo, Joseph, A. (2006). Encyclopedia of Space Astronomy. New York: Facts on Files, Inc. p. 225.

	^ 
"Birth of NASA". history.nasa.gov. Retrieved February 12, 2020.

	^ 
Bello, Francis (1959). "The Early Space Age". Fortune. Archived from the original on November 3, 2013. Retrieved June 5, 2012.

	^ a b c Hall (2001), pp. 149–57

	^ 
"Why Yuri Gagarin Remains the First Man in Space, Even Though He Did Not Land Inside His Spacecraft". April 12, 2010.

	^ Pervushin (2011), 7.1 Гражданин мира

	^ Государственная Дума. Федеральный закон №32-ФЗ от 13 марта 1995 г. «О днях воинской славы и памятных датах России», в ред. Федерального закона №59-ФЗ от 10 апреля 2009 г «О внесении изменения в статью 1.1 федерального закона "О днях воинской славы и памятных датах России"». Вступил в силу со дня официального опубликования. Опубликован: "Российская Газета", №52, 15 марта 1995 г. (State Duma. Federal Law #32-FZ of March 13, 1995 On the Days of Military Glory and the Commemorative Dates in Russia, as amended by the Federal Law #59-FZ of April 10, 2009 On Amending Article 1.1 of the Federal Law "On the Days of Military Glory and the Commemorative Dates in Russia". Effective as of the day of the official publication.).

	^ 
"UN Resolution A/RES/65/271, The International Day of Human Space Flight (12 April)". April 7, 2011. Retrieved January 19, 2015.

	^ Hall and Shayler, p. 150

	^ 
Душенко, Константин (2014). Большой словарь цитат и крылатых выражений (in Russian). Litres. ISBN 978-5-699-40115-4.

	^ Pervushin (2011), 6.2 Он сказал «Поехали!»

	^ Schefter (1999), pp. 138–43

	^ Gatland (1976), pp. 153–54

	^ 
As World Watched. Spaceman Hailed After U.S. Triumph, 1961/05/08 (1961) (Motion picture). Universal-International Newsreel. 1961. OCLC 709678549. Retrieved February 20, 2012.

	^ 
Kennedy, John F. (May 25, 1961). Special Message to Congress on Urgent National Needs (Motion picture (excerpt)). Boston, MA: John F. Kennedy Presidential Library and Museum. Accession Number: TNC:200; Digital Identifier: TNC-200-2. Retrieved August 1, 2013.

	^ Quoted in John M. Logsdon, The Decision to Go to the Moon: Project Apollo and the National Interest (Cambridge, MA: MIT Press, 1970) p. 111.

	^ David E. Bell, Memorandum for the President, "National Aeronautics and Space Administration Budget Problem," March 22, 1961, NASA Historical Reference Collection; U.S. Congress, House, Committee of Science and Astronautics, NASA Fiscal 1962 Authorization, Hearings, 87th Cong., 1st. sess., 1962, pp. 203, 620; Logsdon, Decision to go to the Moon, pp. 94–100.

	^ Wolfe, Tom. The Right Stuff. New York: Picador, 1979.(179)

	^ Roger D. Launius and Howard E. McCurdy, eds, Spaceflight and the Myth of Presidential Leadership (Champaign, IL: University of Illinois Press, 1997), 56.

	^ Kennedy to Johnson,"Memorandum for Vice President," April 20, 1961.

	^ von Braun to Johnson,Untitled, April 29, 1961.

	^ Johnson to Kennedy,"Evaluation of Space Program," April 28, 1961.

	^ a b 
Kennedy, John F. (September 12, 1962). "Address at Rice University on the Nation's Space Effort". Historical Resources. John F. Kennedy Presidential Library and Museum. Retrieved August 16, 2010.

	^ a b Schefter (1999), pp. 156–64

	^ Gatland (1976), pp. 115–16

	^ Hall (2001), pp. 183, 192

	^ Gatland (1976), pp. 117–18

	^ Hall (2001), pp. 185–91

	^ a b c Hall(2001), pp. 194–218

	^ Gatland (1976), p. 254

	^ Stone, Oliver and Peter Kuznick, "The Untold History of the United States" (Gallery Books, 2012), p. 320

	^ a b 
Sietzen, Frank (October 2, 1997). "Soviets Planned to Accept JFK's Joint Lunar Mission Offer". "SpaceCast News Service" Washington DC. Retrieved February 1, 2011.

	^ 
Sagdeev, Roald; Eisenhower, Susan (May 28, 2008). "United States-Soviet Space Cooperation during the Cold War". Retrieved July 19, 2009.

	^ 
Carl Sagan (September 1969). "The COSPAR Meetings in Prague". Icarus. 11 (2): 268–272. doi:10.1016/0019-1035(69)90052-9.

	^ 
"Report on the Activities of the COSPAR Working Group VII". Preliminary Report, COSPAR Twelfth Plenary Meeting and Tenth International Space Science Symposium. Prague, Czechoslovakia: National Academy of Sciences. May 11–24, 1969. p. 94.

	^ 
Loff, Sarah (October 21, 2013). "Gemini: Stepping Stone to the Moon". Gemini: Bridge to the Moon. Washington, DC: National Aeronautics and Space Administration. Archived from the original on December 21, 2014. Retrieved January 4, 2015.

	^ a b c Siddiqi (2003a), pp. 384–86

	^ Schefter (1999), p. 149

	^ Schefter (1999), p. 198

	^ 
Special (October 13, 1964). "Space Troika on Target". The Toronto Star. Toronto: Torstar. UPI. p. 1.

	^ a b Schefter (1999), pp. 199–200

	^ 
Gayn, Mark (October 16, 1964). "Kremlin summit probably greased skids for Mr. K". The Toronto Star. Toronto: Torstar. p. 11.

	^ Siddiqi (2003a), pp. 510–11

	^ Siddiqi (2003a), p. 460

	^ Schefter (1999), p. 207

	^ a b 
Tanner, Henry (March 19, 1965). "Russian Floats in Space for 10 Minutes; Leaves Orbiting Craft With a Lifeline; Moscow Says Moon Trip Is 'Target Now'". The New York Times. New York. p. 1.

	^ Siddiqi (2003a), p. 448

	^ a b Schefter (1999), p. 205

	^ a b Siddiqi (2003a), pp. 454–60

	^ 
"The World's First Space Rendezvous". Apollo to the Moon; To Reach the Moon – Early Human Spaceflight. Smithsonian National Air and Space Museum. Archived from the original on November 16, 2007. Retrieved September 17, 2007.

	^ a b Portree, Part 1–1.2 Historical Overview

	^ inesap.org Archived March 18, 2008, at the Wayback Machine Peaceful Uses of Outer Space and International Law.

	^ Google books Nuclear Weapons and Contemporary International Law N. Singh, E. WcWhinney (p. 289)

	^ UN website UN Resolution 1348 (XIII). Archived November 17, 2015, at the Wayback Machine

	^ 
"United Nations Committee on the Peaceful Uses of Outer Space". United Nations Office for Outer Space Affairs.

	^ Papers of John F. Kennedy. Presidential Papers. National Security Files. Subjects. Space activities: US/USSR cooperation, 1961–96

	^ a b c 
Seamans, Robert C., Jr. (April 5, 1967). "Findings, Determinations And Recommendations". Report of Apollo 204 Review Board. NASA History Office. Retrieved October 7, 2007.

	^ Cadbury (2006), pp. 310–12, 314–16

	^ Burrows (1999), p. 417

	^ Murray (1990), pp. 323–24

	^ a b c d Hall (2003), pp. 144–47

	^ Soyuz 4 Archived August 5, 2014, at the Wayback Machine and Soyuz 5 Archived December 14, 2003, at the Wayback Machine on Encyclopedia Astronautica

	^ 
Williams, David R. (January 6, 2005). "Tentatively Identified Missions and Launch Failures". NASA NSSDC. Retrieved July 30, 2010.

	^ a b Siddiqi (2003b), pp. 616, 618

	^ Hall (2003), p. 25

	^ Kraft (2001), pp. 284–97

	^ Chaikin (1994), pp. 57–58

	^ Siddiqi (2003b), pp. 654–56

	^ Turnhill (2003), p. 134

	^ Siddiqi (2003b), pp. 663–66

	^ a b Cadbury (2006), pp. 318–19

	^ a b c d Poole (2008), pp. 19–34

	^ 
Brooks, Courtney G.; Grimwood, James M.; Swenson, Loyd S., Jr. (1979). "Apollo 10: The Dress Rehearsal". Chariots for Apollo: A History of Manned Lunar Spacecraft. NASA History Series. Foreword by Samuel C. Phillips. Washington, D.C.: Scientific and Technical Information Branch, NASA. ISBN 978-0-486-46756-6. LCCN 79001042. OCLC 4664449. NASA SP-4205. Retrieved January 29, 2008.

	^ Siddiqi (2003b), pp. 665, 832–34

	^ a b Siddiqi (2003b), pp. 690–93

	^ Parry (2009), pp. 178–79

	^ Parry (2009), pp. 144–51

	^ Chaikin (1994), p. 138

	^ Chaikin (1994), pp. 163–83

	^ Parry (2009), pp. 38–44

	^ 
Jones, Eric M. (January 1, 2010). "Apollo 11 Press Kit" (PDF). Apollo Lunar Surface Journal. p. 33. Retrieved August 15, 2010.

	^ a b Murray (1990), p. 356

	^ 
Paterson, Chris (2010). "Space Program and television". The Museum of Broadcast Communications. Retrieved August 11, 2010.

	^ 
Jones, Eric M. (January 1, 2010). "Apollo 11 Lunar Surface Journal". Apollo Lunar Surface Journal. p. MET 109:43:16. Retrieved August 15, 2010.

	^ 
Jones, Eric M. (January 1, 2010). "Apollo 11 Lunar Surface Journal". Apollo Lunar Surface Journal. Retrieved August 15, 2010. Mission elapsed time (MET) from when Armstrong states that he will step off the LM at 109hrs:24mins:13secs to when Armstrong was back inside the LM at 111hrs:38mins:38sec

	^ Parry (2009), pp. 250–51

	^ Parry (2009), pp. 252–62

	^ Murray (1990), p. 347

	^ Schefter (1999), p. 288

	^ Hepplewhite, p. 186

	^ Hepplewhite, p. 123

	^ Hepplewhite, pp. 136–50

	^ Hepplewhite, pp. 150–77

	^ Portree, 1.2.4 Manned Lunar Program (1964–1976)

	^ 
"International Cooperation on the ISS". Texas State University. November 1, 2019. Retrieved January 15, 2020.

	^ https://www.washingtonpost.com/world/russia-unveils-coronavirus-vaccine-claiming-victory-in-global-race-before-final-testing-is-complete/2020/08/11/792f8a54-d813-11ea-a788-2ce86ce81129_story.html




References[edit]

	
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Burrows, William E. (1998). This New Ocean: The Story of the First Space Age. New York: Random House. ISBN 978-0-679-44521-0.
	
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Cornwell, John (2003). Hitler's Scientists: Science, War, and the Devil's Pact. New York: Viking Press. ISBN 0-670-03075-9.
	
Dallek, Robert (2003). An Unfinished Life: John F. Kennedy, 1917–1963. Boston: Little, Brown and Company. ISBN 0-316-17238-3.
	David, Leonard. Moon Rush (Simon and Schuster, 2019).
	
Gainor, Chris (2001). Arrows to the Moon: Avro's Engineers and the Space Race. Burlington, Ontario: Apogee Books. ISBN 1-896522-83-1. Archived from the original on July 23, 2008. Retrieved August 2, 2019.
	
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Siddiqi, Asif A. (2003). Sputnik and the Soviet Space Challenge. Gainesville: University Press of Florida. ISBN 0-8130-2627-X.
	
Siddiqi, Asif A. (2003). The Soviet Space Race with Apollo. Gainesville: University Press of Florida. ISBN 0-8130-2628-8.
	
Stocker, Jeremy (2004). Britain and Ballistic Missile Defence, 1942–2002. London: Frank Case. pp. 12–24. ISBN 0-7146-5696-8.
	
Turnhill, Reginald (2004). The Moonlandings: An Eyewitness Account. New York: Cambridge University Press. ISBN 0-521-81595-9.
	
Первушин, Антон (2011). 108 минут, изменившие мир. Эксмо. ISBN 978-5-699-48001-2. (Anton Pervushin. 108 minutes which changed the world; in Russian)


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	Scanned letter from Wernher Von Braun to Vice President Johnson
	"America's Space Program: Exploring a New Frontier", a National Park Service Teaching with Historic Places (TwHP) lesson plan
	Why Did the USSR Lose the Moon Race? from Pravda, 2002-12-03
	Space Race Exhibition at the Smithsonian National Air and Space Museum
	TheSpaceRace.com – Mercury, Gemini, and Apollo space programs
	Timeline of the Space Race to the Moon 1960 – 1969
	Shadows of the Soviet Space Age, Paul Lucas
	Chronology:Moon Race at russianspaceweb.com
	John F. Kennedy Moon Speech at Rice Stadium and Apollo 11 Mission Video on YouTube


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	APSCO
	COSPAR
	IAA
	INTELSAT
	Interkosmos
	Intersputnik
	 UNCOPUOS
	UNOOSA




	
	See also: Timeline of first orbital launches by country
	1 Preceded by the Soviet space program







	
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Cold War

	
	USA
	USSR
	NATO
	Warsaw Pact
	ANZUS
	SEATO
	METO
	Non-Aligned Movement
	Second Cold War




	1940s	
	Morgenthau Plan
	Hukbalahap Rebellion
	Jamaican political conflict
	Dekemvriana
	Percentages agreement
	Yalta Conference
	Guerrilla war in the Baltic states
	Forest Brothers
	Operation Priboi
	Operation Jungle
	Occupation of the Baltic states


	Cursed soldiers
	Operation Unthinkable
	Operation Downfall
	Potsdam Conference
	Gouzenko Affair
	Division of Korea
	Operation Masterdom
	Operation Beleaguer
	Operation Blacklist Forty
	Iran crisis of 1946
	Greek Civil War
	Baruch Plan
	Corfu Channel incident
	Turkish Straits crisis
	Restatement of Policy on Germany
	First Indochina War
	Truman Doctrine
	Asian Relations Conference
	May 1947 crises
	Marshall Plan
	Comecon
	1948 Czechoslovak coup d'état
	Al-Wathbah uprising
	1947–1949 Palestine war
	1947–1948 Civil War in Mandatory Palestine
	1948 Arab–Israeli War
	1948 Palestinian exodus


	Tito–Stalin split
	Berlin Blockade
	Western betrayal
	Iron Curtain
	Eastern Bloc
	Western Bloc
	Chinese Civil War
	Malayan Emergency
	March 1949 Syrian coup d'état
	Albanian Subversion




	1950s	
	Bamboo Curtain
	Korean War
	McCarthyism
	Mau Mau Uprising
	Algerian War
	Egyptian revolution of 1952
	1953 Iranian coup d'état
	East German uprising of 1953
	Pact of Madrid
	Bricker Amendment
	1954 Guatemalan coup d'état
	1954 Geneva Conference
	Jebel Akhdar War
	Vietnam War
	First Taiwan Strait Crisis
	Cyprus Emergency
	Geneva Summit (1955)
	Bandung Conference
	Poznań protests of 1956
	Hungarian Revolution of 1956
	Suez Crisis
	"We will bury you"
	Ifni War
	Operation Gladio
	Arab Cold War
	Syrian Crisis of 1957
	1958 Lebanon crisis
	Iraqi 14 July Revolution


	Sputnik crisis
	Second Taiwan Strait Crisis
	1959 Tibetan uprising
	1959 Mosul uprising
	Cuban Revolution
	Aftermath of the Cuban Revolution


	Kitchen Debate
	Sino-Soviet split




	1960s	
	Congo Crisis
	Simba rebellion
	1960 U-2 incident
	Bay of Pigs Invasion
	1960 Turkish coup d'état
	Soviet–Albanian split
	Iraqi–Kurdish conflict
	First Iraqi–Kurdish War


	Berlin Crisis of 1961
	Berlin Wall
	Papua conflict
	Sand War
	Portuguese Colonial War
	Angolan War of Independence
	Guinea-Bissau War of Independence
	Mozambican War of Independence


	Cuban Missile Crisis
	El Porteñazo
	Sino-Indian War
	Communist insurgency in Sarawak
	Ramadan Revolution
	Eritrean War of Independence
	North Yemen Civil War
	1963 Syrian coup d'état
	Assassination of John F. Kennedy
	Aden Emergency
	Cyprus crisis of 1963–64
	Vietnam War
	Shifta War
	Mexican Dirty War
	Tlatelolco massacre


	Guatemalan Civil War
	Colombian conflict
	1964 Brazilian coup d'état
	Dominican Civil War
	Rhodesian Bush War
	South African Border War
	Transition to the New Order (Indonesia)
	Domino theory
	ASEAN Declaration
	Laotian Civil War
	1966 Syrian coup d'état
	Argentine Revolution
	Korean DMZ Conflict
	Greek military junta of 1967–1974
	Years of Lead (Italy)
	USS Pueblo incident
	Six-Day War
	War of Attrition
	Dhofar Rebellion
	Al-Wadiah War
	Nigerian Civil War
	Protests of 1968
	May 68


	Cultural Revolution
	Prague Spring
	1968 Polish political crisis
	Communist insurgency in Malaysia
	Warsaw Pact invasion of Czechoslovakia
	17 July Revolution
	1969 Libyan coup d'état
	Football War
	Goulash Communism
	Sino-Soviet border conflict
	CPP–NPA–NDF rebellion
	Corrective Move




	1970s	
	Détente
	Nuclear Non-Proliferation Treaty
	Black September
	Alcora Exercise
	Corrective Movement (Syria)
	Western Sahara conflict
	Cambodian Civil War
	Vietnam War
	Koza riot
	Realpolitik
	Ping-pong diplomacy
	Corrective Revolution (Egypt)
	1971 Turkish military memorandum
	1971 Sudanese coup d'état
	Four Power Agreement on Berlin
	Bangladesh Liberation War
	1972 Nixon visit to China
	North Yemen-South Yemen Border conflict of 1972
	Yemenite War of 1972
	Communist insurgency in Bangladesh
	Eritrean Civil Wars
	1973 Uruguayan coup d'état
	1973 Afghan coup d'état
	1973 Chilean coup d'état
	Yom Kippur War
	1973 oil crisis
	Carnation Revolution
	Spanish transition to democracy
	Metapolitefsi
	Strategic Arms Limitation Talks
	Second Iraqi–Kurdish War
	Turkish invasion of Cyprus
	Angolan Civil War
	Mozambican Civil War
	Oromo conflict
	Ogaden War
	1978 Somali coup d'état attempt
	Western Sahara War
	Ethiopian Civil War
	Lebanese Civil War
	Sino-Albanian split
	Cambodian–Vietnamese War
	Operation Condor
	Dirty War (Argentina)
	1976 Argentine coup d'état
	Libyan–Egyptian War
	German Autumn
	Korean Air Lines Flight 902
	Nicaraguan Revolution
	Uganda–Tanzania War
	NDF Rebellion
	Chadian–Libyan conflict
	Yemenite War of 1979
	Grand Mosque seizure
	Iranian Revolution
	Saur Revolution
	Sino-Vietnamese War
	New Jewel Movement
	1979 Herat uprising
	Seven Days to the River Rhine
	Struggle against political abuse of psychiatry in the Soviet Union




	1980s	
	Salvadoran Civil War
	Soviet–Afghan War
	1980 and 1984 Summer Olympics boycotts
	Peruvian conflict
	Eritrean Civil Wars
	1980 Turkish coup d'état
	Ugandan Bush War
	Gulf of Sidra incident
	Casamance conflict
	Falklands War
	1982 Ethiopian–Somali Border War
	Ndogboyosoi War
	United States invasion of Grenada
	Able Archer 83
	Star Wars
	Iran–Iraq War
	Somali Rebellion
	1986 Black Sea incident
	South Yemen Civil War
	Toyota War
	Lord's Resistance Army insurgency
	1988 Black Sea bumping incident
	Bougainville Civil War
	8888 Uprising
	Solidarity
	Soviet reaction


	Contras
	Central American crisis
	RYAN
	Korean Air Lines Flight 007
	People Power Revolution
	Glasnost
	Perestroika
	First Nagorno-Karabakh War
	Afghan Civil War
	United States invasion of Panama
	1988 Polish strikes
	1989 Tiananmen Square protests
	Revolutions of 1989
	Fall of the Berlin Wall
	Fall of the inner German border
	Velvet Revolution
	Romanian Revolution
	Peaceful Revolution




	1990s	
	Mongolian Revolution of 1990
	Gulf War
	German reunification
	Yemeni unification
	Fall of communism in Albania
	Breakup of Yugoslavia
	Dissolution of Czechoslovakia
	Dissolution of the Soviet Union
	1991 August Coup






	Frozen conflicts	
	Abkhazia
	China-Taiwan
	Korea
	Puerto Rico
	Kosovo
	Nagorno-Karabakh
	South Ossetia
	Transnistria
	Sino-Indian border dispute
	North Borneo dispute




	Foreign policy	
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	Containment
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	Ostpolitik
	Johnson Doctrine
	Brezhnev Doctrine
	Nixon Doctrine
	Ulbricht Doctrine
	Carter Doctrine
	Reagan Doctrine
	Rollback
	Sovereignty of Puerto Rico during the Cold War




	Ideologies	
	Capitalism	
	Liberalism
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	Socialism	
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	Titoism




	Other	
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	Third-Worldism
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	Apartheid







	Organizations	
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	Comecon
	Non-Aligned Movement
	ASEAN
	SAARC
	CIA
	MI6
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	Stasi
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	Propaganda	
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	Active measures
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	TASS




	Pro-democratic	
	 Amerika
	Crusade for Freedom
	Voice of America
	Radio Free Europe/Radio Liberty
	Radio Free Asia
	Red Scare
	Soviet Life







	Races	
	Arms race
	Nuclear arms race
	Space Race




	Historians	
	Gar Alperovitz
	Thomas A. Bailey
	Michael Beschloss
	Archie Brown
	Warren H. Carroll
	Adrian Cioroianu
	John Costello
	Michael Cox
	Nicholas J. Cull
	Willem Drees
	Robert D. English
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	André Fontaine
	Anneli Ute Gabanyi
	John Lewis Gaddis
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	Tvrtko Jakovina
	Tony Judt
	Harvey Klehr
	Gabriel Kolko
	Walter LaFeber
	Walter Laqueur
	Melvyn Leffler
	Geir Lundestad
	Mary Elise Sarotte
	Vojtech Mastny
	Jack F. Matlock Jr.
	Thomas J. McCormick
	Timothy Naftali
	Marius Oprea
	David S. Painter
	William B. Pickett
	Ronald E. Powaski
	Yakov M. Rabkin
	Arthur M. Schlesinger Jr.
	Ellen Schrecker
	Giles Scott-Smith
	Shen Zhihua
	Athan Theoharis
	Andrew Thorpe
	Vladimir Tismăneanu
	Patrick Vaughan
	Alex von Tunzelmann
	Odd Arne Westad
	William Appleman Williams
	Jonathan Reed Winkler
	Rudolph Winnacker
	Ken Young




	See also	
	Allied intervention in the Russian Civil War
	List of Eastern Bloc agents in the United States
	Soviet espionage in the United States
	Soviet Union–United States relations
	USSR–USA summits
	Russian espionage in the United States
	American espionage in the Soviet Union and Russian Federation
	Russia–NATO relations
	War on terror
	Brinkmanship
	CIA and the Cultural Cold War
	Second Cold War
	Russian Revolution




	
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Spaceflight

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	Space warfare
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	Private spaceflight



	

	Applications	
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	Space launch	
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	Space agencies	
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NASA

	Policy and history	
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	Ride (1987)
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	Human spaceflight
programs	
	Past	
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	Current	
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	Current	
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	Individual featured
 missions
(human and robotic)	
	Past	
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	observed






	Currently
operating	
	Mars Reconnaissance Orbiter
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	New Horizons
	International Space Station
	Hubble Space Telescope
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	THEMIS
	Mars Exploration Rover
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	timeline


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	timeline


	NuSTAR
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	WISE
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	MMS
	OSIRIS-REx
	Transiting Exoplanet Survey Satellite




	Future	
	Joint Polar Satellite System
	James Webb Space Telescope
	Wide Field Infrared Survey Telescope
	Mars 2020
	rover


	NISAR
	Europa Clipper
	Nancy Grace Roman Space Telescope







	Communications
and navigation	
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	Madrid
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	Space Flight Operations Facility)
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	NASA lists	
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	NASA images
and artwork	
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	Related	
	Apollo 8 Genesis reading
	Apollo 15 postal covers incident
	Space Mirror Memorial
	The Astronaut Monument
	Lunar sample displays
	U.S. Astronaut Hall of Fame
	Space program on U.S. stamps
	Apollo 17 Moon mice
	Moon tree
	Other primates in space
	NASA spinoff technologies
	Space Apps




	
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History of the United States

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Retrieved from "https://en.wikipedia.org/w/index.php?title=Space_Race&oldid=1003095018"


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		 This page was last edited on 27 January 2021, at 11:22 (UTC).
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