globular cluster force

globular clusters

data on Globular clusters from HUBBLE SITE and image courtesy of Hubble Site
DATA ON SPACE TUGG IS BY Wikipedia

my own contributions are the data on globular cluster theory

by Henryk Szubinski
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.THAT SOME ADVANCED CIVILISATIONS WOULD GO TO GLOBULAR CLUSTERS WITH SUPER SPACESHIP TUGGS THE SIZE OF A THOUSAND CUBIC METRES OR MORE TO TIE A STAR TO A LINE AND TO PULL IT OUT TOWARDS THEIR OWN STAR SYSTEM TO USE THE FORCE GENERATED WOULD MEAN THAT A LOT OF STARS GET TUGGED IN THEESE SYSTEMS OF GLOBULAR CLUSTERS

MUCH LIKE A FIELD AND ITS HARVEST, THE HARVEST TUGGS WOULD BE IN 2 OR 3 VECHICLES THAT WORK IN UNISON THROUGHT THE VECTORS OPEN BY SPACE TRANSPORTS

IN A GLOBULAR CLUSTER THERE COULD BE ANYTHING FROM 100 TO 10 000 TUGGS WORKING SO THAT THE MINIMAL MOTION REGISTERED BY EARTH TELESCOPES COULD ACTUALLY REGISTER THE SMALL MOTION DIFFERENCES BETWEEN THEESE STARS

Artist’s impression of several VASIMR engines propelling a craft through space

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The Variable Specific Impulse Magnetoplasma Rocket (VASIMR) is an electro-magnetic thruster for spacecraft propulsion. It uses radio waves to ionize and heat a propellant and magnetic fields to accelerate the resulting plasma to generate thrust. It is one of several types of spacecraft electric propulsion systems.
The method of heating plasma used in VASIMR was originally developed as a result of research into nuclear fusion. VASIMR is intended to bridge the gap between high-thrust, low-specific impulse propulsion systems and low-thrust, high-specific impulse systems. VASIMR is capable of functioning in either mode. Costa Rican scientist and former astronaut Franklin Chang-Diaz created the VASIMR concept and has been working on its development since 1977.[1]

A colorful collection of 100,000 stars are displayed in this small region inside the Omega Centauri globular cluster, a dense group of nearly 10 million stars. Omega Centauri is one of the biggest star clusters in the Milky Way.

globular clusters are the largest density star parameters you are likely to find anywhere in the universe

Their density is the same as the globular clusters that get GOBBLED UP by the centre of the galaxy
Meaning that the same force is active in any parameter of such density
the displacement of such globular clusters would displace like a group held together by pure force
So that the density remains the same , this pure force will be used to displace the globular fields in stable Groupings as = stable displacement
When they get to their destined place they are still in a gropup formation
Loosing little sleep or mooving too fast ,theese groups remain in the centre of the galaxy though they do not emit or absorb any excessive force by photon gravity of motion diosplacement inertial gravity wells
In basic terms, the globular clusters are the most stable in the universe and will maintain stability of the displacement force throughout their lives as their amount maintains the same value of force
This shows that there are basically 2 group values of forced motion in every galaxy
as such to make the distinction between fields in galaxies throughout the universe each section would be a x2 multiple of displaced force so that a F amount of galaxies would basically be a common value between them = 2x / F
or each star in a globular cluster
Some data on a alternate computation would define the force of displacement as F / 2x (S) = the total stability of the universe as defined by R or resistance.
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.the uncertainty of a star in a globular cluster being unstable would be defined by the S = angle of rotation out of the globular cluster group by a artificial star defined by the law of globular clusters.
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the THEORY THAT ALL CURRENT FORCE OR ENERGY IN THE UNIVERSE IS NOW BEING USED BY ADVANCED CIVILISATIONS WOULD ACCOUNT FOR THE TRANSPORT ROUTES THROUGHOUT THE UNIVERSE AS BASIC ROUTES IN WHICH STARS ARE BEING TRANSPORTED SO THAT THE IMAGE SHOWN BELOW COULD HAVE ONCE BEEN A ROUTE FOR STAR TUGGS AS THEY MINIMALISED THEIR FUEL USAGE BY DUMPING THE BURN OF IMPURITIES FOUND IN A STAR AND LEAVING A DISPLACEMENT ROUTE OVER THIS SEGMENT OF THE SKY TO USE AS A COST EFFECTIVE ROUTE TO BE USED BY TUGGS.
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AS A SPACETUGG PULLS A STAR THROUGH SPACETIME, THE EFFECT IS THE ATTRACTION OR REPULSIONAL FORCE OF NEARBY STELLAR MATTER OR SMALL STARS MEANING THAT THE BASIC ROUTES ARE DESLY PACKED,, SO A SPACETUGG WOULD HAVE TO UTILISE THE DYNAMICS INTERACTIONS OF SUCH LARGE MOVING BODIES AND THEIR LARGE AMOUNTS AS A POSITTIVE DISPLACEMENT FORCE

A STAR BEING TUGGED COULD HAVE SOME INTERNAL ATTRACT OR EXPANSION FUNCTION WHICH COULD BE USED BY A CIVILISATION ON THE MOOVE BUT ALSO ONE THAT WOULD FULLFILL ITS BASIC FUNCTION TO GET BACK TO ITS EXO PLANETARY SYSTEM WITH THE BOUNTY OF NEW FORCE.
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THIS MEANS THAT IF THERE ARE SUCH ADVANCED CIVILISATIONS THEY WOULD HAVE HAD A STAR TUGG AND A ARTIFICIAL STAR IN THEIR OWN SYSTEM AND ARE NOW WORKING HARD TO DISCOVER THE NEW FORCES OR TECHNOLOGIES ON THEIR OWN BIT OF THE UNIVERSE.
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Simply speaking, a roller coaster is “a machine that uses gravity and inertia to send a train along a winding track.”[1] This combination of gravity and inertia, along with G-forces and centripetal acceleration give the body certain sensations as the coaster moves up, down, and around the track. The forces experienced by the rider are constantly changing. This is what causes the ride to be so enjoyable or, for some, nauseating. The basic principles of roller coaster mechanics have been known since 1665,[citation needed] and since then roller coasters have become a popular diversion.

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AS SUCH A TRACK COULD BE PROJECTED BY A ADVANCEED CIVILISATION TO SET OUT THE WAY OF A STAR TO ITS CAPTURE AND USAGE SO A LOT OF SPACE WOULD ACTUALLY BE A DISPLACEMENT ROUTE FOR A STAR WITHOUT ANY INTERFERANCE BY A CIVILISATION TRYING TO GET IT HOME.
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.OBVIOUSLY THE PRESENCE OF A CIVILISATION WOULD NOT BE NOTICABLE, THEY WOULD BE AT HOME WAITING FOR THEIR STAR.as a resultance of slightly atering its vector value
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