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Saturn's bulging core implies moons younger than thought


Freshly harvested data from NASA's Cassini mission reveals that the ringed planet's moons may be younger than previously thought.

Saturn's bulging core implies moons younger than thought
Saturn and moons. A quintet of Saturn's moons come together in this portrait from NASA's Cassini spacecraft. Janus is seen 
on the far left, Pandora orbits near the middle, Enceladus appears above the center, and Rhea and Mimas are seen on the 
right side. A quintet of Saturn's moons come together in the Cassini spacecraft's field of view for this portrait. Janus 
(179 kilometers, or 111 miles across) is on the far left. Pandora (81 kilometers, or 50 miles across) orbits between
 the A ring and the thin F ring near the middle of the image. Brightly reflective Enceladus (504 kilometers, or 313 miles 
across) appears above the center of the image. Saturn's second largest moon, Rhea (1,528 kilometers, or 949 miles across), 
is bisected by the right edge of the image. The smaller moon Mimas (396 kilometers, or 246 miles across) can be seen 
beyond Rhea also on the right side of the image [Credit: NASA/JPL-Caltech/Space Science Institute]
"All of these Cassini mission measurements are changing our view of the Saturnian system, as it turns our old theories upside down," said Radwan Tajeddine, Cornell University research associate in astronomy and a member of the European-based Encelade scientific team that pored over the Cassini data and published a paper in the astronomy journal Icarus.

The Encelade team -- lead by Valéry Lainey of the Paris Observatory -- provided two key measurements in the research: the rigidity of the tidal bulge, or the Love number -- named for Augustus E.H. Love, a famed British mathematician who studied elasticity -- and the dissipation factor, which controls the speed at which moons move away.

While Saturn is mostly a gigantic shroud of liquid hydrogen and liquid helium, it contains a rocky core -- about 18 times the size of Earth, which responds to tidal forces from all of Saturn's major moons by bulging. The forces of the bulging core, in turn, push the moons slightly away.

"Those two parameters -- the Love number and dissipation factor -- are difficult to separate," Tajeddine said.

So the team detected and examined the orbits of four tiny moons associated with the larger moons Tethys (Telesto and Calypso) and Dione (Helene and Polydeuces). While these tiny moons do not affect the tidal forces on Saturn, their orbits are disturbed by Saturn's core tidal bulges.

"By monitoring these disturbances, we managed to obtain the first measurement of Saturn's Love number and distinguish it from the planet's dissipation factor," Tajeddine said. "The moons are migrating away much faster than expected."

Tajeddine explains that if Saturn moons actually formed 4.5 billion years ago, their current distances from the home planet should be greater. Thus, this new research suggests, the moons are younger than 4.5 billion years, favoring a theory that the moons formed from Saturn's rings.

The team also found that Saturn moon Rhea is moving away 10 times faster than the other moons, which is the first evidence that a planet's dissipation factor can vary with its distance in relation to the moon. The scientists have no definitive explanation.

"What we believe about Saturn's moons history might still change in the coming years with the finale of the Cassini mission," said Lainey, who suggested, "The more we learn about Saturn, the more we learn about exoplanets."

Author: Melissa Osgood | Source: Cornell University [December 08, 2016]
TANN

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