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\t\t\t\t\t\t21\/08\/2024<\/span> ESA\u2019s Jupiter Icy Moons Explorer (Juice) has successfully completed a world-first lunar-Earth flyby, using the gravity of Earth to send it Venus-bound, on a shortcut to Jupiter through the inner Solar System.<\/p>\n<\/div>\n The closest approach to the Moon was at 23:15 CEST (21:15 UTC) on 19 August, guiding Juice towards a closest approach to Earth just over 24 hours later at 23:56 CEST (21:56 UTC) on 20 August.<\/p>\n As Juice flew just 6840 km above Southeast Asia and the Pacific Ocean, it snapped a series of images with its onboard monitoring cameras, and collected scientific data with eight of its ten instruments.<\/p>\n \u201cThe gravity assist flyby was flawless, everything went without a hitch, and we were thrilled to see Juice coming back so close to Earth,\u201d says Ignacio Tanco, Spacecraft Operations Manager for the mission.<\/p>\n The purpose of the flyby was to reroute Juice\u2019s path through space, using the gravity of first the Moon and then Earth to change the spacecraft\u2019s speed and direction.<\/p>\n<\/p><\/div>\n The flyby of the Moon increased Juice\u2019s speed by 0.9 km\/s relative to the Sun, guiding Juice towards Earth. The flyby of Earth reduced Juice\u2019s speed by 4.8 km\/s relative to the Sun, guiding Juice onto a new trajectory towards Venus. Overall, the lunar-Earth flyby deflected Juice by an angle of 100\u00b0 compared to its pre-flyby path.<\/p>\n The inherently risky flyby required ultra-precise, real-time navigation, but is saving the mission around 100\u2013150 kg of fuel. In the month before the flyby, spacecraft operators gave Juice slight nudges to put it on exactly the right approach trajectory. Then they tracked Juice 24\/7 between 17\u201322 August.<\/p>\n<\/p><\/div>\n Thanks to a flawless Ariane 5 launch back in April 2023, Juice has a little extra propellant in its tanks to get closer to Jupiter\u2019s moon Ganymede than originally planned. The success of the lunar-Earth flyby has safeguarded this bonus science.<\/p>\n \u201cThanks to very precise navigation by ESA\u2019s Flight Dynamics team, we managed to use only a tiny fraction of the propellant reserved for this flyby. This will add to the margins we keep for a rainy day, or to extend the science mission once we get to Jupiter,\u201d adds Ignacio.<\/p>\n<\/p><\/div>\n Whilst the main goal was to alter Juice\u2019s trajectory, the lunar-Earth flyby also provided an opportunity to test out Juice\u2019s scientific instruments in space, with all ten switched on during the Moon flyby, and eight switched on during the Earth flyby.<\/p>\n We expect to publish images and spectra collected by some of Juice\u2019s instruments in the next weeks, as they are downlinked from the spacecraft and evaluated by the instrument scientists. This includes high-resolution images on the Moon and Earth from Juice\u2019s scientific camera, JANUS.<\/p>\n \u201cThe timing and location of this double flyby allows us to thoroughly study the behaviour of Juice\u2019s instruments,\u201d explains Claire Vallat, Juice Operations Scientist.<\/p>\n \u201cIt happens early enough in Juice\u2019s journey that we can use the data to prepare the instruments for arrival at Jupiter. And given how well we know the physical properties of Earth, the Moon, and the surrounding space environment, it\u2019s also the ideal location to understand how the instruments respond to a real target.\u201d<\/p>\n<\/p><\/div>\n This lunar-Earth flyby actually reduced Juice\u2019s energy, redirecting it towards a meeting with Venus in August 2025. That Venus flyby will boost Juice back out towards Earth; the spacecraft will fly by our home planet again in September 2026 and January 2029, gaining two more boosts before arrival at Jupiter in July 2031.<\/p>\n<\/p><\/div>\n
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\n\t\t\t\t\t\t\t\t<\/figcaption><\/figure>\nA first taste of science in space<\/h2>\n
\n\t\t\t\t\t\t\t\t<\/figcaption><\/figure>\nNext step: Venus<\/h3>\n