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Philae (/ˈfaɪliː/ or /ˈfiːleɪ/) was a robotic European Space Agency lander that accompanied the Rosetta spacecraft until it separated to land on comet... |
and set down on landing gear, with the possible addition of a post-landing attachment mechanism (such as the mechanism used by Philae) for celestial bodies... |
module Philae performed the first successful landing on a comet, though its battery power ran out two days later. Communications with Philae were briefly... |
landers, such as Philae and the Apollo Lunar Module, land entirely by using their fuel supply, however many landers (and landings of spacecraft on Earth) use... |
Landing gear is the undercarriage of an aircraft or spacecraft that is used for taxiing, takeoff or landing. For aircraft it is generally needed for both... |
67P/Churyumov–Gerasimenko (category Comets visited by spacecraft) 2014 and entered orbit on 10 September 2014. Rosetta's lander, Philae, landed on the comet's surface on 12 November 2014, becoming the first spacecraft to... |
Peregrine Mission One (redirect from Peregrine (spacecraft)) downlink. After landing, a 2.4 GHz Wi-Fi modem is to enable wireless communication between the lander and deployed rovers on the lunar surface. Instruments... |
commands to unstow its robotic arm and take more images of its landing site. The images revealed that the spacecraft landed where it had access to digging... |
OSIRIS-REx (redirect from The Origins Spectral Interpretation Resource Identification Security Regolith Explorer spacecraft) Lunar and Planetary Laboratory provides principal science operations. Lockheed Martin Space Systems built the spacecraft and provides mission operations. The... |
New Horizons (redirect from New Horizons (spacecraft)) building the spacecraft and its instruments, with a planned launch in January 2006 and arrival at Pluto in 2015. Alice Bowman became Mission Operations Manager... |
Whipple shields to protect the delicate surfaces from the potentially damaging cometary dust while the spacecraft was in the coma of Wild 2. The solar array... |
Chandrayaan-3 (category Soft landings on the Moon) temperatures of the lunar night, and sunset over the landing site ended the surface mission twelve days after landing. The propulsion module, still operational... |
perform flybys of two asteroids (2867 Šteins and 21 Lutetia), and carry lander Philae until its landing on 67P. This page records a detailed timeline... |
Some spacecraft remain in space indefinitely, some disintegrate during atmospheric reentry, and others reach a planetary or lunar surface for landing or... |
Chandrayaan-4 (section Spacecraft) safe and soft landing on the lunar surface. Lunar sample collection and containerisation. Ascent from the Moon's surface. Docking and undocking in lunar... |
Chandrayaan-2 (redirect from Vikram (spacecraft)) changes in configuration and landing sequence were planned for implementation which increased the gross lift-off mass of spacecraft from 3,250 kg to 3,850 kg... |
Hayabusa2 (redirect from Mobile Asteroid Surface Scout) descend to the asteroid surface to perform sampling, the spacecraft released one of five target markers in the selected landing zones as artificial guide... |
Mars Exploration Rover (redirect from The Rover Spacecraft) the spacecraft if it landed on rocks or rough terrain and allow it to bounce across Mars' surface at highway speeds (about 100 km/h) after landing. The... |
Cassini–Huygens (redirect from Cassini spacecraft) the outer Solar System and the first landing on a moon other than Earth's Moon. At the end of its mission, the Cassini spacecraft executed its "Grand Finale":... |
Hayabusa (redirect from Mu Space Engineering Spacecraft C) the spacecraft on 13 June 2010. The spacecraft also carried a detachable minilander, MINERVA, which failed to reach the surface. NASA's Galileo and NEAR... |