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Apollo came out with a teaser video for the Intensa Emozione on October 17, 2017, [3] and the car was fully revealed on October 24, 2017. In June 2018, Apollo revealed that the company would be partnering with HWA AG , a tuning and racing team spin-off from Mercedes-Benz tuner AMG , to complete the final stage of development for the car.
Various technologies and sensors that are used include radar (all-weather) and sometimes laser and cameras (employing image recognition) to detect an imminent crash. GPS sensors can detect fixed dangers such as approaching stop signs through a location database. [2] [4] [5] [6] Pedestrian detection can also be a feature of these types of systems.
It was carried on the 1971 Apollo 14 mission and was planned to be used on Apollo 15, but was used only on Apollo 14 since Apollo 15's mission was changed to be the first to employ the motorized Lunar Roving Vehicle, which transported both astronauts and equipment. Astronauts nicknamed the MET "the rickshaw". It was pulled using a pulling bar ...
Astronauts manually flew Project Gemini with control sticks, but computers flew most of Project Apollo except briefly during lunar landings. [6] Each Moon flight carried two AGCs, one each in the command module and the Apollo Lunar Module, with the exception of Apollo 7 which was an Earth orbit mission and Apollo 8 which did not need a lunar module for its lunar orbit mission.
English: This video shows the separation of two stages of the Saturn V launch vehicle during Apollo 4, an uncrewed test flight of the Apollo program. A camera mounted to the interior of the S-II, the Saturn V's second stage, records the separation of the S-IC, its first stage, and subsequent jettisoning of an interstage ring which connected the two stages.
The crash position indicator (CPI) is a radio beacon designed to be ejected from an aircraft when it crashes. This helps ensure it survives the crash and any post-crash fires or sinking, allowing it to broadcast a homing signal to search and rescue aircraft.
English: Video of the Apollo 11 launch, taken from the base of the Launch Umbilical Tower on the Mobile Launcher. Camera E-8 captured this footage on 16 mm film at 500 frames per second. This footage takes place within approximately 30 seconds of real time.
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.