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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Space Race | 15/18 | https://en.wikipedia.org/wiki/Space_Race | reference | science, encyclopedia | 2026-05-05T13:12:13.188868+00:00 | kb-cron |
=== Soviet Lunar sample return and robotic rovers === In late 1970 Luna 16 was launched by the Soviet Union, and became the first uncrewed probe to return a sample from the Moon. This was followed by Luna 20 and Luna 24 in subsequent years. The Soviet Union was also able to successfully land the first robotic rover on the Moon in 1970, followed by another in 1973, with the Lunokhod missions. These missions demonstrated continued Soviet willingness to compete with the US in the space race despite having lost the manned Moon landing aspect of the space race.
=== Salyut and Skylab ===
Having lost the race to the Moon, the USSR seemed to decide to concentrate on orbital space stations instead of pursuing a crewed lunar mission. During 1969 and 1970, they launched six more Soyuz flights after Soyuz 3 and then launched a series of six successful space stations (plus two failures to achieve orbit and one station rendered uninhabitable due to damage from explosion of the launcher's upper stage) on their Proton-K heavy-lift launcher in their Salyut program designed by Kerim Kerimov. Each one weighed between 18,500 and 19,824 kilograms (40,786 and 43,704 lb), was 20 meters (66 ft) long by 4 meters (13 ft) in diameter, and had a habitable volume of 99 cubic meters (3,500 ft3). All of the Salyuts were presented to the public as non-military scientific laboratories, but three of them were covers for military Almaz reconnaissance stations: Salyut 2 (failed), Salyut 3, and Salyut 5.
Salyut 1, the first space station, was launched by the Soviets 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 then record 22-day stay. The crew became the second in-flight space fatality during their reentry on June 30, when they were asphyxiated due to the spacecraft's cabin becoming depressurized, shortly after undocking. The disaster was blamed on a faulty cabin pressure valve, that allowed the air to vent into space. The crew was not wearing pressure suits and had no chance of survival once the leak occurred. To prevent a recurrence of the Soyuz 11 tragedy, Soviet engineers redesigned the Soyuz spacecraft and mandated that cosmonauts wear Sokol pressure suits during launch and landing, a requirement still in place today. The United States launched a single orbital workstation, Skylab, on May 14, 1973. It was launched using a leftover Saturn-5 rocket from the Apollo programme. Skylab 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 over 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 conducted valuable research. The third and final mission's crew, Skylab 4, set a human endurance record (at the time) 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. Salyut 4 broke Skylab's occupation record at 92 days. Salyut 6 and Salyut 7 were second-generation stations designed for long duration, and were occupied for 683 and 816 days. Salyut 7 improved upon earlier designs by allowing long-duration crewed missions and more complex experiments. These stations, with their expanded crew capacity and amenities for long term stay, carrying electric stoves, a refrigerator, and constant hot water.
=== Venus and Mars robotic landings ===
==== Venus landings ==== In 1970, the Soviet Union's Venera 7 marked the first time a spacecraft was able to return data after landing on another planet. Venera 7 held a resistant thermometer and an aneroid barometer to measure the temperature and atmospheric pressure on the surface, the transmitted data showed 475 C at the surface, and a pressure of 92 bar. In 1975, Venera 9 established an orbit around Venus and successfully returned the first photography of the surface of Venus. Venera 10 landed on Venus and followed with further photography shortly after. NASA initiated the Pioneer Venus project in 1978, successfully deploying four small probes into the Venusian atmosphere on December 9, 1978. The probes confirmed that Venus has little if any magnetic field, and cameras detected lightning in the atmosphere. The last transmissions were received on October 8, 1992, as its decaying orbit no longer permitted communications. The spacecraft burned up the atmosphere soon after, ending a successful 14-year mission that was planned to last only eight months. In 1981, Venera 13 performed a successful soft-landing on Venus and marked the first probe to drill into the surface of another planet and take a sample. Venera 13 also took an audio sample of the Venusian environment, marking another first. Venera 13 returned the first color images of the surface of Venus, revealing an orange-brown flat bedrock surface covered with loose regolith and small flat thin angular rocks. Venera 14, an identical spacecraft to Venera 13, was launched 5 days apart with a similar mission profile. In total ten Venera probes achieved a soft landing on the surface of Venus. In 1984, the Soviet Vega programme began and ended with the launch of two crafts launched six days apart, Vega 1 and Vega 2. Both crafts deployed a balloon in addition to a lander, marking a first in spaceflight. The US never caught up or matched the Soviet efforts to explore the surface of Venus, but did claim the title of the first successful probe to have flown by the planet and had notable success with the Pioneer atmospheric probes.