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NASA's Juno Spacecraft 'Hears' Jupiter's Moon by Staff Writers Pasadena CA (JPL) Dec 20, 2021
Sounds from a Ganymede flyby, magnetic fields, and remarkable comparisons between Jupiter and Earth's oceans and atmospheres were discussed during a briefing on NASA's Juno mission to Jupiter at the American Geophysical Union Fall Meeting in New Orleans. Juno Principal Investigator Scott Bolton of the Southwest Research Institute in San Antonio has debuted a 50-second audio track generated from data collected during the mission's close flyby of the Jovian moon Ganymede on June 7, 2021. Juno's Waves instrument, which tunes in to electric and magnetic radio waves produced in Jupiter's magnetosphere, collected the data on those emissions. Their frequency was then shifted into the audio range to make the audio track. "This soundtrack is just wild enough to make you feel as if you were riding along as Juno sails past Ganymede for the first time in more than two decades," said Bolton. "If you listen closely, you can hear the abrupt change to higher frequencies around the midpoint of the recording, which represents entry into a different region in Ganymede's magnetosphere." Detailed analysis and modeling of the Waves data are ongoing. "It is possible the change in the frequency shortly after closest approach is due to passing from the nightside to the dayside of Ganymede," said William Kurth of the University of Iowa in Iowa City, lead co-investigator for the Waves investigation. At the time of Juno's closest approach to Ganymede - during the mission's 34th trip around Jupiter - the spacecraft was within 645 miles (1,038 kilometers) of the moon's surface and traveling at a relative velocity of 41,600 mph (67,000 kph).
Magnetic Jupiter Compiled from data collected from 32 orbits during Juno's prime mission, the map provides new insights into the gas giant's mysterious Great Blue Spot, a magnetic anomaly at the planet's equator. Juno data indicates that a change in the gas giant's magnetic field has occurred during the spacecraft's five years in orbit, and that the Great Blue Spot is drifting eastward at a speed of about 2 inches (4 centimeters) per second relative to the rest of Jupiter's interior, lapping the planet in about 350 years. In contrast, the Great Red Spot - the long-lived atmospheric anticyclone just south of Jupiter's equator - is drifting westward at a relatively rapid clip, circling the planet in about four-and-a-half years. In addition, the new map shows that Jupiter's zonal winds (jet streams that run east to west and west to east, giving Jupiter's its distinctive banded appearance) are pulling the Great Blue Spot apart. This means that the zonal winds measured on the surface of the planet reach deep into the planet's interior. The new magnetic field map also allows Juno scientists to make comparisons with Earth's magnetic field. The data suggests to the team that dynamo action - the mechanism by which a celestial body generates a magnetic field - in Jupiter's interior occurs in metallic hydrogen, beneath a layer expressing "helium rain." Data Juno collects during its extended mission may further unravel the mysteries of the dynamo effect not only at Jupiter but those of other planets, including Earth.
Earth's Oceans, Jupiter's Atmosphere "When I saw the richness of the turbulence around the Jovian cyclones, with all the filaments and smaller eddies, it reminded me of the turbulence you see in the ocean around eddies," said Siegelman. "These are especially evident in high-resolution satellite images of vortices in Earth's oceans that are revealed by plankton blooms that act as tracers of the flow." The simplified model of Jupiter's pole shows that geometric patterns of vortices, like those observed on Jupiter, spontaneously emerge, and survive forever. This means that the basic geometrical configuration of the planet allows these intriguing structures to form. Although Jupiter's energy system is on a scale much larger than Earth's, understanding the dynamics of the Jovian atmosphere could help us understand the physical mechanisms at play on our own planet.
Arming Perseus "It is breathtaking that we can gaze at these familiar constellations from a spacecraft a half-billion miles away," said Heidi Becker, lead co-investigator of Juno's Stellar Reference Unit instrument at NASA's Jet Propulsion Laboratory in Pasadena. "But everything looks pretty much the same as when we appreciate them from our backyards here on Earth. It's an awe-inspiring reminder of how small we are and how much there is left to explore." Video: Audio of Juno's Ganymede Flyby
Are Water Plumes Spraying from Europa Greenbelt MD (SPX) Dec 01, 2021 In 2005, images of a brilliant watery plume erupting from the surface of Saturn's moon Enceladus captivated the world. The giant column of vapor, ice particles, and organic molecules spraying from the moon's south polar region suggested that there's a liquid water ocean below Enceladus' ice shell and confirmed the moon is geologically active. The plume also thrust Enceladus and other worlds in the outer solar system, with no atmospheres and far from the heat of the Sun, toward the top of NASA's list of ... read more
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