NASA Europa Clipper Mission Art & Infographic Collection | NASA/JPL
Scientists think that under the icy surface of Jupiter's moon Europa a saltwater ocean exists that may contain more than twice as much liquid water as all of Earth's oceans combined. This artist's concept (not to scale) depicts what Europa's internal structure could look like: an outer shell of ice, perhaps with plumes of material venting from beneath the surface; a deep, global layer of liquid water; and a rocky interior, potentially with hydrothermal vents on the seafloor. The true nature of Europa's inner structure will be examined by NASA's Europa Clipper mission, which is scheduled to arrive at Jupiter in 2030.
This illustration depicts scientists' findings about what the interior of Jupiter's moon Europa may look like: an iron core, surrounded by a rocky mantle believed to be in direct contact with a vast, internal ocean. New research and computer modeling show that volcanic activity may have occurred on the seafloor of Jupiter's moon Europa in the recent past – and may still be happening. The new work shows how internal heat produced by tides—warping of Europa's shape as it changes distance from Jupiter during its orbit—could partially melt its rocky layer, a process that could feed volcanoes on the ocean floor. The recent modeling of how this internal heat is produced and transferred is the most detailed and thorough examination of the effect this heating has on the moon.
Radiation from Jupiter can destroy molecules on Europa's surface. Material from Europa's ocean that ends up on the surface of Europa will be bombarded by radiation. The radiation breaks apart molecules and changes the chemical composition of the material, possibly destroying any biosignatures, or chemical signs that could imply the presence of life. To interpret what future space missions find on the surface of Europa we must first understand how material has been modified by radiation.
This artist's concept illustrates how NASA's Europa Clipper spacecraft will use radar to peer beneath Europa's ice crust to reveal the structure underneath. Europa Clipper will carry an instrument called the Radar for Europa Assessment and Sounding: Ocean to Near-surface (REASON) that can penetrate beneath the Jovian moon's surface layer, revealing potential pockets of water, cracks, or other features not visible from the outside.
On its journey to the Jupiter system, NASA's Europa Clipper will take a path that swings past Mars, then Earth, using the gravity of each planet as a slingshot to boost the spacecraft's speed. All told, the journey will take about 5½ years, covering a distance of about 1.8 billion miles (2.9 billion kilometers). In this diagram, the orbits of Jupiter, Mars, and Earth are shown as concentric rings.
NASA's Europa Clipper is tasked with up-close study of Jupiter's enigmatic moon Europa. It orbits the gas giant within a band of powerful radiation generated by the planet's strong magnetic field. The relative intensity of Jupiter's radiation bands is illustrated in this diagram, along with the orbits of Jupiter's three other largest moons: Io, Ganymede, and Callisto.
To limit the damaging effects of radiation on the spacecraft, Europa Clipper will orbit Jupiter elliptically, dipping in for dozens of close flybys of Europa. Between each pass, the spacecraft will retreat to a safer distance where it can safely transmit the science data it collects back to Earth.
Europa Clipper explores an icy ocean world (Artist's Concept)
NASA's Europa Clipper Mission was successfully launched from NASA's Kennedy Space Center's Launch Complex 39A on Monday, October 14, 2024. The Europa Clipper spacecraft plans to fly by Mars in February 2025, then back by Earth in December 2026, using the gravity of each planet to increase its momentum. With help of these “gravity assists,” Europa Clipper will achieve the velocity needed to reach Jupiter in April 2030.
Beyond Earth, Jupiter’s moon Europa is considered one of the solar system’s most promising potentially habitable environments. After an approximately 1.8-billion-mile journey, Europa Clipper will enter orbit around Jupiter in April 2030, where the spacecraft will conduct a detailed survey of Europa to determine whether the icy world could have conditions suitable for life.
Europa Clipper's three main science objectives are to determine the thickness of the moon's icy shell and its interactions with the ocean below, to investigate its composition, and to characterize its geology. The mission's detailed exploration of Europa will help scientists better understand the astrobiological potential for habitable worlds beyond our planet.
Europa Clipper's science instruments include cameras, spectrometers, a magnetometer, and an ice-penetrating radar. These instruments will study Europa’s icy shell, the ocean beneath, and the composition of the gases in the moon’s atmosphere and surface geology, and provide insights into the moon’s potential habitability. The spacecraft also will carry a thermal instrument to pinpoint locations of warmer ice and any possible eruptions of water vapor.
Find more information about Europa here:
'Dreaming of Europa' Posters and Wallpaper (phone and desktop)
Full-size downloads: https://go.nasa.gov/3ZIDxgu
Image Credit: NASA/ESA/JPL-Caltech/Michael Carroll
Release Date: Oct. 11, 2024
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