![Viking 2 lander (foreground) on Mars, photographed by one of the spacecraft’s own cameras, 1976.[Credits : NASA/JPL]](http://media-2.web.britannica.com/eb-media/14/8814-003-DEA9F37F.gif)
either of two robotic U.S. spacecraft launched by NASA for extended study of the planet Mars. The Viking project was the first planetary exploration mission to transmit pictures from the Martian surface.
![A Viking lander, photographed on Earth in its deployed configuration. Beneath the high-gain …[Credits : NASA]](http://media-2.web.britannica.com/eb-media/31/75431-003-CC219B8B.gif)
Viking 1 and Viking 2, which lifted off on August 20 and September 9, 1975, respectively, each comprised an instrumented orbiter and lander. After completing nearly yearlong journeys, the two spacecraft entered orbits around Mars and spent about a month surveying landing sites. They then released their landers, which touched down on flat lowland sites in the northern hemisphere about 6,500 km (4,000 miles) apart. Viking 1 landed in Chryse Planitia (22.48° N, 47.97° W) on July 20, 1976; Viking 2 landed in Utopia Planitia (47.97° N, 225.74° W) seven weeks later, on September 3.
![Viking 1 lander sampling arm (lower centre) and several trenches that it dug in the sandy soil of …[Credits : NASA]](http://media-2.web.britannica.com/eb-media/27/75427-003-B0FB5031.gif)
The Viking orbiters mapped and analyzed large expanses of the Martian surface, observed weather patterns, photographed the planet’s two tiny moons (see Deimos and Phobos), and relayed signals from the two landers to Earth. The landers measured various properties of the atmosphere and soil of Mars and made colour images of its yellow-brown rocky surface and dusty pinkish sky. Onboard experiments designed to detect evidence of living organisms in soil samples ultimately provided no convincing signs of life on the surface of the planet. Each orbiter and lander functioned long past its design lifetime of 90 days after touchdown. The final Viking data was transmitted from Mars (from the Viking 1 lander) in November 1982, and the overall mission ended the following year.
Viking-2-lander-on-Mars-photographed-by-one-of-theViking 2 lander (foreground) on Mars, photographed by one of the spacecraft’s own cameras, 1976.[Credits : NASA/JPL]
A-Viking-lander-photographed-on-Earth-in-its-deployed-configurationA Viking lander, photographed on Earth in its deployed configuration. Beneath the high-gain …[Credits : NASA]
Viking-1-lander-sampling-arm-and-several-trenches-that-itViking 1 lander sampling arm (lower centre) and several trenches that it dug in the sandy soil of …[Credits : NASA]
The-face-on-Mars-rock-formation-in-images-made-fromThe “face on Mars” rock formation, in images made from orbit by Viking 1 in July 1976 …[Credits : NASA/JPL/Malin Space Science Systems]
Syrtis-Major-region-on-MarsSyrtis Major region on Mars. This enhanced-colour mosaic, which combines images taken by the Viking …[Credits : Photo NASA/JPL/Caltech (NASA photo # PIA00173)]
Global-topographic-map-of-Mars-produced-from-high-resolution-laserGlobal topographic map of Mars produced from high-resolution laser altimetry data collected by Mars …[Credits : Mars Orbiter Laser Altimeter Science Team]
Topographic-map-of-the-Tharsis-province-of-Mars-made-fromTopographic map of the Tharsis province of Mars made from high-resolution altimetry data collected …[Credits : MOLA Science Team]
The-boulder-strewn-plain-of-Chryse-Planitia-on-MarsThe boulder-strewn plain of Chryse Planitia, on Mars. The first colour photograph of the Martian …[Credits : Photo NASA/JPL/Caltech (NASA photo # PIA00563)]
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