NASA’s highly anticipated Europa Clipper mission is set to begin its journey to Jupiter's icy moon, Europa. Getting there, however, is no short trip. The spacecraft, scheduled to launch on October 10, will embark on a 1.8 billion-mile (2.9 billion kilometres) journey. According to NASA, the main science goal of Clipper is to determine if there are places below the surface of Europa that could potentially support life.


ALSO READ ON ABP LIVE | Europa Clipper: 10 Things To Know About The NASA Mission Flying To Jupiter’s Icy Moon


Distance Between Earth And Jupiter  


Jupiter is, on average, 480 million miles (770 million km) from Earth. The mission planners at NASA are using gravity assists from Mars and Earth to speed up the spacecraft’s trajectory. This technique, known as a "gravity slingshot", helps conserve fuel and increase the spacecraft's velocity. After traversing a 2.9 bn km path, Europa Clipper is expected to enter Jupiter's orbit in 2030, about five and a half years later. 



What Will Europa Clipper Do?


Once in Jupiter's orbit, Europa Clipper will begin its series of close flybys of Europa, aiming to investigate whether the moon’s vast subsurface ocean could support life. The mission represents a significant leap in planetary exploration, as the spacecraft will navigate through Jupiter’s intense radiation environment while collecting data on the moon’s surface, atmosphere, and internal composition.


Designed for the long haul, Europa Clipper is NASA’s largest spacecraft ever developed for a planetary mission, with a wingspan of over 100 feet (30.5 metres) when fully deployed. The spacecraft is equipped with powerful instruments to study Europa’s icy surface, measure the thickness of its ice shell, and search for signs of habitability beneath the moon's frozen crust.


Europa Clipper will be carrying nine science instruments and a gravity experiment using the telecommunications system. All the instruments will operate simultaneously during each flyby, and scientists will then paint a full picture of the moon after layering the data together.