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In the full-resolution color image, Earth was 90 pixels across and the Moon was 24 pixels across from a distance of 142 million km. [7] On May 25, 2008, HiRISE imaged NASA's Mars Phoenix Lander parachuting down to the surface of Mars. It was the first time that one spacecraft imaged the final descent of another spacecraft onto a planetary body.
[4] [5] This is an approximately equivalent field of view to that which a 135-400mm zoom lens provides on a standard 35mm consumer camera. The Mastcam-Z team consists of approximately 100 scientists, engineers, technicians, managers, administrators, and students, many of whom have worked on the project since NASA selected the instrument in 2014.
The THEMIS instrument, before being mounted onto Mars Odyssey. The Thermal Emission Imaging System (THEMIS) is a camera on board the 2001 Mars Odyssey orbiter. It images Mars in the visible and infrared parts of the electromagnetic spectrum in order to determine the thermal properties of the surface and to refine the distribution of minerals on the surface of Mars as determined by the Thermal ...
In July 2014, NASA announced the selection of the Mastcam-Z proposal for the Mars 2020 rover mission, provided by MSSS. It is an improved zoom version of the original MastCam. [3] The Mars Orbiter Camera, built by Malin Space Science Systems and used by NASA on the Mars Observer and Mars Global Surveyor spacecraft.
The Mars Color Imager (MARCI) is a wide-angle, relatively low-resolution camera built for Mars Climate Orbiter and Mars Reconnaissance Orbiter. MARCI views the surface of Mars in five visible and two ultraviolet bands. Each day, MARCI collects about 84 images and produces a global map with pixel resolutions of 1 to 10 km (0.62 to 6.21 mi).
NASA has also suggested that the telescope could be sent to Mars, photographing the surface with a resolution about four times finer than the current Mars Reconnaissance Orbiter's HiRISE instrument. From Martian orbit the telescope could also view the outer Solar System and the asteroid belt. [14]
Pioneer 1, television camera; Pioneer 2, television camera; Lunar Orbiter program, Lunar Orbiter 1–5, 1966–1967; The camera used two lenses to simultaneously expose a wide-angle and a high-resolution image on the same film. The wide-angle, medium resolution mode used an 80 mm F 2.8 Xenotar lens manufactured by Schneider Kreuznach, Germany ...
The James Webb Space Telescope (JWST) is a space telescope designed to conduct infrared astronomy.As the largest telescope in space, it is equipped with high-resolution and high-sensitivity instruments, allowing it to view objects too old, distant, or faint for the Hubble Space Telescope. [9]