Starship Asterisk*

JohnD wrote:
As Pan is tidally locked, it will also have the same radial relationship to its adjacent rings. So if the ridge is the result of ice deposited on its equator as it draws particles from the adjacent rings, why is it all around? Either end, or where the moon is nearest to the rings might be more expected. Or would particles spiral down onto the surface, to land and augment the ridge?

geckzilla wrote:
Would the Coriolis effect still cause horizontal banding for clouded planets tidally locked with a parent star? This is one of those things that bothers me a lot. I wonder if the heat gradient would cause some unusual cloud patterns that would be more apparent than what the Coriolis effect would cause—for both gaseous and terrestrial planet types.

neufer wrote:

Chris Peterson wrote:

neufer wrote: As in the case of almost all moons they are tidally locked.

So to answer the question, yes, both moons spin.

Just not in relationship to their immediate surrounds.

Chris Peterson wrote:

neufer wrote:

NESLON wrote:
Do we know if Pan or Atlas spin ?

As in the case of almost all moons they are tidally locked.

So to answer the question, yes, both moons spin.

neufer wrote:

NESLON wrote: Do we know if Pan or Atlas spin ?

As in the case of almost all moons they are tidally locked.

If you are a moon and your planet subtends an angle of 2º or more
(as in the case of the Moon & Earth) then you are tidally locked.

NESLON wrote:
Do we know if Pan or Atlas spin ?

BDanielMayfield wrote:

JohnD wrote:
Art's erudition and polytemporalistic tendency (no doubt the result of residence on Tralfamadore) has led him astray.
My reference was not to Bo-peep (Fool, King Lear, Act 1, Scene 4, Page 8) but to Jeremiah 50:6 (qv)

Very nice John. I had to look it up. It fits.

JohnD wrote:Art's erudition and polytemporalistic tendency (no doubt the result of residence on Tralfamadore) has led him astray.
My reference was not to Bo-peep (Fool, King Lear, Act 1, Scene 4, Page 8) but to Jeremiah 50:6 (qv)
John

neufer wrote:.
You’ve met Saturn’s ravioli-shaped moon, Pan.

Ray-Optics wrote:Since Pan orbits in the Encke gap along with an irregular ringlet, a hypothesis for the hat brim occurs to me: It is picking up "snow" from this ringlet along its "equator" of spin. Pan's gravity must be very low, so ring snow could pile high. An overall snow layer may also account for the relatively young-looking surface.

Astronymus wrote:This moon is the weirdest thing.

JohnD wrote:
The Wilyard site does refer to a "faint" ring associated with Atlas, but also says definitely that it is not a shepherd moon.

https://en.wikipedia.org/wiki/Rings_of_Saturn#Roche_Division wrote:

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<<The separation between the A Ring and the F Ring has been named the Roche Division in honor of the French physicist Édouard Roche. Lying at the outer edge of the main ring system, the Roche Division is in fact close to Saturn's Roche limit, which is why the rings have been unable to accrete into a moon. Like the Cassini Division, the Roche Division is not empty but contains a sheet of material. The character of this material is similar to the tenuous and dusty D, E, and G Rings. Two locations in the Roche Division have a higher concentration of dust than the rest of the region. These were discovered by the Cassini probe imaging team and were given temporary designations: R/2004 S 1, which lies along the orbit of the moon Atlas; and R/2004 S 2, centered at 138,900 km from Saturn's center, inward of the orbit of Prometheus.>>

JohnD wrote:
Maybe the shepherd has lost his sheep,
or other shepherds have led them astray.