Uranus doesn't have well developed rings it has what scientist's call arcs, incomplete rings. And they are composed of dark material. They can't be seen from earth.
By "nonuniform areal embedding" I mean that a spherical screen surrounding a mass suspended above the ground would have most of its incoming and outgoing gravitational flux densities on the bottom side, in balance. Gravitational entanglement could occur as a tendency for the screen's region of increased density to become more localized over time in the absence of external disruptive influence. A reduction in cosmological dynamic gravity wave production would be another result of this principle.
Had the thought that the spin axis is almost 90 degrees off system-axis for a reason having to do with solar-system self-organization encouraging the isolation of nearly all major initial system non-solar-axis components into a single major body, that planets form much more rapidly than would be expected, as a result. I suppose this relates to quantum gravity through a nonuniform areal embedding generated with a fast equal-opposite rule for ultralow-energy zero-mode graviton paths/actions.
Uranus is in the news, and there's a nice IR image of the rings I don't recall seeing before. Can't find anyone else who is saying the IR density could be closely related to neutrino oscillation rate, so I'll suggest it here.
@gulfland Can you please keep your religion out of my science! I mean really, I (and others) watch these vids for educational entertainment , Not to have some retard try to further some bullshit religion.
Uranus doesn't have well developed rings it has what scientist's call arcs, incomplete rings. And they are composed of dark material. They can't be seen from earth.
libraryquiet 1 week ago
Your anus is so big they named a planet after it!
MrNutshel 1 week ago
lol Uranus, lets make it in word.
Just like @Aelexsch the word will be Ur anus :p XD!!!
anyway i like Uranus's Path because its path is in side so instead of spinning it became rolling
TheGMANKiller875 1 month ago
Hey look, its Ur Anus.
Aelexsch 1 month ago
this is a bad name
Tankkaray75 1 month ago
By "nonuniform areal embedding" I mean that a spherical screen surrounding a mass suspended above the ground would have most of its incoming and outgoing gravitational flux densities on the bottom side, in balance. Gravitational entanglement could occur as a tendency for the screen's region of increased density to become more localized over time in the absence of external disruptive influence. A reduction in cosmological dynamic gravity wave production would be another result of this principle.
CACBCCCU 5 months ago
Had the thought that the spin axis is almost 90 degrees off system-axis for a reason having to do with solar-system self-organization encouraging the isolation of nearly all major initial system non-solar-axis components into a single major body, that planets form much more rapidly than would be expected, as a result. I suppose this relates to quantum gravity through a nonuniform areal embedding generated with a fast equal-opposite rule for ultralow-energy zero-mode graviton paths/actions.
CACBCCCU 5 months ago
Uranus is in the news, and there's a nice IR image of the rings I don't recall seeing before. Can't find anyone else who is saying the IR density could be closely related to neutrino oscillation rate, so I'll suggest it here.
CACBCCCU 5 months ago
DEAR VIEWERS,
FOR ASTONISHING FACTS ABOUT PLANETS, JUST TYPE IN THE SEARCHING BOX:
Quran and Science
SEVEN PARTS! YOU MUST LIKE THEM!
gulfland 9 months ago
@gulfland Can you please keep your religion out of my science! I mean really, I (and others) watch these vids for educational entertainment , Not to have some retard try to further some bullshit religion.
55metalmonkey 6 months ago
@gulfland We all laugh at your primitive superstition. Your intellect doesn't seem to have changed since when you were five years of age
GodOfUnbelief 5 months ago
go to jupiter and you're dead .. hahaha
envyness100 1 year ago
@envyness100 exactly...
thepeaceguitar 10 months ago
I want to go to every planet.
Neneandkim 1 year ago