Outstanding video. I never knew there was potential for anything other that our gas and ice giants to have rings. The rings around certain asteroids was really interesting.
This video probably should be updated given the results of the Cassini mission's grand finale For instance those small moons are denser rockier bits which have accreted or are accreting ring material in what seems like it might be a far more efficient process than what we had thought What blew my mind is that we now think that the rings as well as the embedded and accreting shepherd moons and the planets mid sized moons Mimas Enceladus Tethys (and its two Trojan companions at its L4 and L5 Lagrange points) Dione Rhea and perhaps even Titan itself are young no older than a billion years old at most with the moons having formed through accretion of ring material around rockier fragments of the unfortunate parent body (as rockier material possessed greater integrity to hold together against tidal forces). At the current rate of particles infalling into Saturn, the grand rings of Saturn will be gone within 100 million years meaning we are very privileged to be able to see them during their brief existence. Someday they will become diffuse fossil rings not dissimilar to the other giant planets. Regarding Mars there is some evidence to suggest it might be even more complicated as there are a number of unusual characteristics suggesting they likely both accreted from the same ring of material including tier chemical composition most closely matching that of Mars itself. Also interesting are a number of strange craters found in the orbital plane of Phobos and Deimos including one especially strange "orca" shaped feature that could be a crater from a moon that crashed into Mars in a unusual way though this hypothesis remains to be tested. The point is Phobos might not be the first moon to crash into Mars rather the last of a number of doomed moons that have rejoined the red planet. It is also interesting to note that considerable tidal stress fractures are visible on Phobos so the moon's destruction is already well in progress. I have to wonder if an object was dropped from the Mars facing side of the moon would it fall up or down? If a number of such objects were dropped between Mars and Phobos at what point would they fall one way or another (i.e. what does the gravity field around a near tidally disrupted body look like)
hmm People living on Mars when Phobos already disintegrated pass the Roche Limit is probably a bad idea. The atmospheric drag alone (even without Saturn's electromagnetic method of draining its rings) might be enough to cause those poor Phobonian fragments to one by one come crashing down on our poor Martian future colonies. :p
I don't believe they were ever really confirmed as Cassini didn't see any evidence of their existence meaning another explanation would be needed to explain the magnetic anomaly that led to speculation about such a ring system.
Best Saturn video ever!
Thanks!
Awesome video. Great content
You should have millions of views on this.
Thanks I appreciate it!
Very cool video thanks for sharing!:)
Morning D.E.W. Thanks, my pleasure!
What a nice video. Thank you!
I swear that backlit photo of Saturn was so beautiful but yo, when I saw earth from the back, I started yelling like a sports fan. GO BLUES!!!
We went outside and faced Saturn when the image was taken so I guess we were in the picture :)
Outstanding video. I never knew there was potential for anything other that our gas and ice giants to have rings. The rings around certain asteroids was really interesting.
Awesome!!! How can there be so few views???
Really engaging video! It includes details I've never heard or seen in other videos!
Galileo wrote: "Has Saturn eaten his children?" when he didn't spot them.
I just had to leave a comment! Awesome content!
Interesting and beautiful video❤❤❤
This video probably should be updated given the results of the Cassini mission's grand finale
For instance those small moons are denser rockier bits which have accreted or are accreting ring material in what seems like it might be a far more efficient process than what we had thought What blew my mind is that we now think that the rings as well as the embedded and accreting shepherd moons and the planets mid sized moons Mimas Enceladus Tethys (and its two Trojan companions at its L4 and L5 Lagrange points) Dione Rhea and perhaps even Titan itself are young no older than a billion years old at most with the moons having formed through accretion of ring material around rockier fragments of the unfortunate parent body (as rockier material possessed greater integrity to hold together against tidal forces). At the current rate of particles infalling into Saturn, the grand rings of Saturn will be gone within 100 million years meaning we are very privileged to be able to see them during their brief existence. Someday they will become diffuse fossil rings not dissimilar to the other giant planets.
Regarding Mars there is some evidence to suggest it might be even more complicated as there are a number of unusual characteristics suggesting they likely both accreted from the same ring of material including tier chemical composition most closely matching that of Mars itself. Also interesting are a number of strange craters found in the orbital plane of Phobos and Deimos including one especially strange "orca" shaped feature that could be a crater from a moon that crashed into Mars in a unusual way though this hypothesis remains to be tested. The point is Phobos might not be the first moon to crash into Mars rather the last of a number of doomed moons that have rejoined the red planet. It is also interesting to note that considerable tidal stress fractures are visible on Phobos so the moon's destruction is already well in progress. I have to wonder if an object was dropped from the Mars facing side of the moon would it fall up or down? If a number of such objects were dropped between Mars and Phobos at what point would they fall one way or another (i.e. what does the gravity field around a near tidally disrupted body look like)
If a meteor went through the rings and punched a hole, how long it will take for the rings to return to their original form? Will they at all?
Every time I look at Saturn's rings I wonder what songs it plays
Are Saturn's rings stable?
I hope we send a spacecraft to Chiron within my lifetime.
I learned recently that Earth may have once had a ring as well.
hmm People living on Mars when Phobos already disintegrated pass the Roche Limit is probably a bad idea. The atmospheric drag alone (even without Saturn's electromagnetic method of draining its rings) might be enough to cause those poor Phobonian fragments to one by one come crashing down on our poor Martian future colonies. :p
What about the rings of Saturn's major moon Rhea?
I don't believe they were ever really confirmed as Cassini didn't see any evidence of their existence meaning another explanation would be needed to explain the magnetic anomaly that led to speculation about such a ring system.
Uranus has 27 moons, not 14.
Uranus 27
Neptun has 14 moons
I think “Chiron” should be pronounced as “Kai-Ron”
Hello
Oh My Drool! WHAT IS GOING ON!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! MY RINGS ARE MADE OF FOGS OF DUST
I’m sorry who are you?