Space station, an artificial structure placed in orbit and having the pressurized enclosure, power, supplies, and environmental systems necessary to support human habitation for extended periods. Depending on its configuration, a space station can serve as a base for a variety of activities. These include observations of the Sun and other astronomical objects, study of Earths resources and environment, military reconnaissance, and long-term investigations of the behaviour of materials and biological systemsincluding human physiology and biochemistryin a state of weightlessness, or microgravity.

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Small space stations are launched fully assembled, but larger stations are sent up in modules and assembled in orbit. To make the most efficient use of its carrier vehicles capacity, a space station is launched vacant, and its crew membersand sometimes additional equipmentfollow in separate vehicles. A space stations operation, therefore, requires a transportation system to ferry crews and hardware and to replenish the propellant, air, water, food, and such other items as are consumed during routine operations. Space stations use large panels of solar cells and banks of storage batteries as their source of electrical power. They also employ geostationary relay satellites for continuous communication with mission controllers on the ground and satellite-based positioning systems for navigation.

Since 1971, 11 space stations launched into a low orbit around Earth have been occupied for varying lengths of time. In chronological order they are Salyut 1, Skylab, Salyuts 3, 4, 5, 6, and 7, Mir, the International Space Station, and Tiangong 1 and 2 (see table).

Between 1952 and 1954, in a series of articles in the popular magazine Colliers, the German-American rocket pioneer Wernher von Braun presented his vision of a space station as a massive wheel-shaped structure that would rotate to generate artificial gravity from centrifugal force, sparing its crew of 1,000 scientists and engineers the drawbacks of weightlessness. It would be serviced by a fleet of winged spaceships employing nuclear engines. One of the stations primary tasks would be to assemble vehicles for expeditions to the Moon. That concept remained a popular portrait of humankinds future in space as late as 1968, when the American motion-picture director Stanley Kubricks classic science-fiction film 2001: A Space Odyssey depicted a spinning double-wheel station under construction above Earth. On a regular schedule, a fleet of commercial space planes flew people up to the station, from which they could catch a ferry to the Moon.

In Brauns day, the development of a space station was thought to be a preliminary stepping-stone to the Moon and planets, but, when Cold War politics prompted Pres. John F. Kennedy in 1961 to commit the United States to landing a man on the Moon before the decade was out, there was no time to pursue this logical route. Rather, a single spacecraft would be obliged to ride an expendable rocket into orbit and fly directly to its goal. Nevertheless, even as the National Aeronautics and Space Administration (NASA) plunged deeply into the Apollo program, it studied several space station strategies as part of an Apollo Applications Program, which would exploit vehicles built for the Moon race for more general orbital activities.

Even as 2001 was restating Brauns ambitious vision to the public, it already was obvious to space engineers that the first real space stations would have to be much simpler than their fictional counterparts. One NASA plan was to have an Apollo spacecraft dock with a spent rocket stage, whereupon its crew would pressurize the rockets empty hydrogen-propellant tank with air and install scientific equipment that would turn it into a laboratory for several weeks of occupancy. The U.S. Air Force had its own plan to operate a Manned Orbiting Laboratory fitted with an advanced camera to facilitate military reconnaissance activities. In 1969, however, just as NASA attained Kennedys goal of a crewed lunar landing, Pres. Richard M. Nixon canceled the Manned Orbiting Laboratory and restricted the Apollo Applications Program to a single station.

Like the U.S. military, the Soviet Union had a plan to put a series of reconnaissance stations in orbit by the 1970s. In 1969, with development running late for the large spacecraft that was to ferry crews and supplies to the station, Soviet officials decided to accelerate the program by employing the Soyuz spacecraft that had been developed during the failed attempt to win the Moon race. Moreover, because some of the systems needed for a military reconnaissance platform were not yet available, it was decided to initiate the program with a station equipped as a scientific laboratory.

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space station | Definition, History, & Facts | Britannica