Amalthea, with its potato-like shape and reddish shade, orbits inside Ios orbit and releases more heat than it receives from the Sun, potentially due to electrical currents caused by Jupiters magnetic field or tidal stresses.On March 7, 2024, throughout its 59th close flyby of Jupiter, NASAs Juno objective captured these views of the huge world. Amalthea circles Jupiter inside Ios orbit, which is the innermost of the planets four largest moons, taking 0.498 Earth days to complete one orbit.NASAs Juno mission recorded these views of Jupiter throughout its 59th close flyby of the huge world on March 7, 2024. The heat could be from tidal stresses triggered by Jupiters gravity.At the time that the very first of these 2 images was taken, the Juno spacecraft was about 165,000 miles (265,000 kilometers) above Jupiters cloud tops, at a latitude of about 5 degrees north of the equator.Citizen scientist Gerald Eichstädt made these images utilizing raw data from the JunoCam instrument, using processing techniques to boost the clearness of the images.JunoCams raw images are available for the public to peruse and process into image items at https://missionjuno.swri.edu/junocam/processing.
Amalthea, with its potato-like shape and reddish hue, orbits inside Ios orbit and produces more heat than it gets from the Sun, perhaps due to electrical currents caused by Jupiters magnetic field or tidal stresses.On March 7, 2024, throughout its 59th close flyby of Jupiter, NASAs Juno mission recorded these views of the huge world. Amalthea circles Jupiter inside Ios orbit, which is the innermost of the worlds four largest moons, taking 0.498 Earth days to finish one orbit.NASAs Juno mission captured these views of Jupiter throughout its 59th close flyby of the giant world on March 7, 2024. The heat could be from tidal stresses caused by Jupiters gravity.At the time that the very first of these 2 images was taken, the Juno spacecraft was about 165,000 miles (265,000 kilometers) above Jupiters cloud tops, at a latitude of about 5 degrees north of the equator.Citizen researcher Gerald Eichstädt made these images using raw data from the JunoCam instrument, using processing techniques to enhance the clarity of the images.JunoCams raw images are available for the public to process and peruse into image products at https://missionjuno.swri.edu/junocam/processing.