How pairs and trios, and necklaces, can
orbit staying together Two different gravitational tide physics seem to be involved
Corallary page is necklace.htm Objects orbiting large stars in tidal trios Tidal trios (three coupled orbiters) Tidal tilt orbits (star rings) |
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GIC GALAXIES IN CHAOS |
CORALLARY PAGES PLANETS SPECIAL PLANETS1 NECKLACES OSCILLATIONS SUPERFORMS HUBBLE |
| TIDAL TRIOS |
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CLOCKSTEP TIDAL TRIOS AT VEGA (RIGHT)
Here a set of three tidal pairs sails merrily along together in a straight line in seeming defiance of Keplerian laws, orbiting giant star Aldebaran
Two parallel tidal trios doing glue gymnastics together (as two sets of three) in tidal orbits around giant star Vega
Two sets of three, (orange images next) shown migrating in orbit and morphing in glue gymnastics together, appear around giant star Regulus
| SUPERCHARGE TIDAL TRIOS |
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A speculation -
Supercharge may explain why tidal trios exist around stars in seeming defiance of kepler laws. Assume each body in a tidal trio has similar charge and it is a super charge strength doing the work, repulsiveness will drive each body out from a similar supercharged star having some charge state, the result is a straight line rejection out from central, this might also explain how the tidal trios rotate about their each point of center in unison, all three rotating in place in locksynch like three sailing schooners each spinning in the same direction in a circle as all three sail around a flagpole ticking up in the ocean, all three schooners in a straight line out from the flagpole the third out at the end of the string having to hustle to keep in position with the other two, in reverse of normal gravitational fluid field orbiting dynamic physics where the farthest out intrinsically is supposed to orbit the slowest, according to standard gravitational laws in physics.
Tidal trio at Regulus, three tubular oblongs have migrated in orbit, rearward in one photo plate by Dss, forward in another Dss plate taken at a different time, each tubular oblong has rotated in unison on the spot in the same direction while the necklace of three sail around the star together as one orbiting engineered device.
The three are flexing in unison, a cycle cell each a clone of each other except for real (or apparant size). It is possible that the three in the trio are not in the same orbit in terms of elevation on a solar ecliptic axis, that is, each is at a different orbital tilt with respect to the ecliptic, in this case, if an orbital exclusion principle is present, the orbital exclusion principle is not violated.
Supercharge may be the strength to keep the tubulars shoved out from each other in a straight line while tightly bonded to a supercharged star of opposite polarity, the charge attraction stronger than the nascent gravitational field of the star per se.
STARRING
These views are repeated, plus more, in the Necklace.htm page, in context of groups of stars which arc in tight circles made of smaller segments in different planes, and seem to travel along in strings nonetheless.
Stars in a ring which have no business being in a ring that is steady state, the only possible explanation springing to mind is the whole necklace cluster orbits a center point, or drifts as one, the stars maintaining a ring by being in different tilts in the same orbit, if adrift, then in the same distances apart along orbital circumpherence and between tilts - these may be in trojan holding patterns of a remarkably different kind than planet orbital legrange points.
And a surprise - this whole area is another tympanum operation, made of stars. Handling diffuse low glow positive charges, the outline (pink) of what could be a powerful force field generating pullmotor, is revealed.
Three stars vector from the center of the star ring straight in to an invisible focal point. The star ring being analysed is shown in highlight next.
TIDAL TILT ORBITS
Small compact starrings may be stars orbiting mutually locked in tidal tilt orbits.
Opposite curved orbit ring segments are analyzed here, and with it an explanation in 'orbital tilts' as to why stars, in little rings, can co-orbit successfully.
TIDAL TILT NECKLACES
Everywhere you look, into the tiniest crevaces and nooks, are more starrings small, even smaller, coherently ordered in steady state tidal tilt necklaces.
Two for the price of one - also - a vague magnetic barrel made of stars in vertical staves (below the starring). Is the starring at the end of a magnetic cone, such as a cone enscribed by a precessional electron spin like a gyroscope or spinning toy top, whose pole is rotating in a circle making a cone, on a kitchen table. If this is true, everyone of the starrings is formed at the open end of a magnetic cone. It cannot be said in the limits of these investigation images if the magnetic vortex is able to mold and capture stars in rings around the closed end of a cone.
The starring is not contigous as in a smooth ring made of completely well behaved stars. The star ring is made in segments, with smaller groups of stars each in a different clustered orientation.
The group clustering composited to form a ring, is ideally seen in a starring at mass nebular Ngc 3603. Next below is an image from this link
Opposite curved orbit ring segments are analyzed here, and with it an explanation in 'orbital tilts' as to why stars, in little rings made of gene code segments necklaced together, can co-orbit successfully.
More magnetic barrel images are here.
Pssst! No no not me, nothing wrong with my bagpipe performance. I'm an alien lizard and I run the whole of the american eastern seaboard for astronomy. This here is my partner, stuke, together we have the power, he runs the whole of the american western seaboard for astronomy. Over there is my third power a mole in the ranks of Eso in europe, running things. About pictures of that orbiting tidal trio at regulus, destroy them (finger flick is subliminal in the air in an upright statue position barely moved, returned to its full half bang position in midair in less than a fraction of a second, destroy them ALL!)
Uuuhhh that weak rattling, was that a voice?
The rattle gets weaker each time another picture is introduced. The rattling is getting weaker now, even as we speak. Lizard one calls over to lizard two - read my lips. Lizard three kicks in with a silly grin based on maniacle maschosism.
Web site/display/designs/image enhancements - Greydon Moore World's largest cosmic teaching site - Ottawa 2001/2004 form A & O 3 3
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