...crater-forming impacts were so large they spun Dione, changing the part that suffered the highest impact rate before the moon's spin again became locked...
This would nicely explain the differential cratering at the leading and trailing surfaces.
But, to my mind, this leaves unexplained the large craters on the sides of the moon perpendicular to the path of the orbit - halfway between the leading/trailing parts (on the plane perpendicular to the path) - looking the same as those on the leading portion.
To me it seems that if there are all of these impactors coming from one direction hitting the moon dead-on and leaving the round craters we see, then there should be furrowed craters from glancing strikes along the sides - which is not what is seen on the side shown in the image, as the craters on the side look the same as those on the leading edge.
Dust on the now-leading edge seems attractive, if so, then one should see a smooth shading of the craters on side of the moon between leading/trailing edges. Whilst the most superior of those craters in this image suggests such blurring none of the others do - nor does inspection in this image of the now-leading yellow edge even hint at obscured craters lying below.
The reason that I always start my day with APOD is that the image is often beautiful and the subject always makes one think.
How did the 'dedicated amateur' gain access to NASA's images?
[quote]...crater-forming impacts were so large they spun Dione, changing the part that suffered the highest impact rate before the moon's spin again became locked...[/quote]
This would nicely explain the differential cratering at the leading and trailing surfaces.
But, to my mind, this leaves unexplained the large craters on the sides of the moon perpendicular to the path of the orbit - halfway between the leading/trailing parts (on the plane perpendicular to the path) - looking the same as those on the leading portion.
To me it seems that if there are all of these impactors coming from one direction hitting the moon dead-on and leaving the round craters we see, then there should be furrowed craters from glancing strikes along the sides - which is not what is seen on the side shown in the image, as the craters on the side look the same as those on the leading edge.
Dust on the now-leading edge seems attractive, if so, then one should see a smooth shading of the craters on side of the moon between leading/trailing edges. Whilst the most superior of those craters in this image suggests such blurring none of the others do - nor does inspection in this image of the now-leading yellow edge even hint at obscured craters lying below.
The reason that I always start my day with APOD is that the image is often beautiful and the subject always makes one think.
How did the 'dedicated amateur' gain access to NASA's images?