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Wormholes and Spatial Drag as a Result of the Density of Dark Matter in Local Space
ABSTRACT: Wormholes and Spatial Drag as a Result of the Density of Dark Matter in Local Space
M. Daare & W. Xolodnik, _Journal of the New Terra (Terra II) Institute of Applied Physics_ (2643).
Observations of the positions of galaxies in the universe at large point to the distribution of dark matter as being "lumpy". Given this, it should come as no surprise that this "lumpiness" has also been observed on a smaller scale right here in our local area of the galaxy - namely, the current region of space collectively known as the 'verse.
We postulate that this large concentration of dark matter in local space creates unique gravitomagnetic conditions which give rise to such phenomena as the ubiquity of wormholes and, indirectly, spatial drag. Away from objects of planetary mass or greater an array of phenomena unobserved on the Mother Planet (Sol) are here common and now exploited. (Ion storms may also be a result of this concentration but probably as a secondary or tertiary effect of wormholes. For instance, Aubrey argues that ion storms are not a result of wormholes themselves but of _travel_ through wormholes. (See: Aubrey, et al. "Ion Storms as a Mechanism of Einsteinian Paradox Resolution." _New Journal of Theoretical Physics_ (2634).))
We theorize that wormholes are a result of the stress on the fabric of space-time brought about by particularly dense clumps of dark matter acting not through gravity but via related mechanisms such as frame-dragging. It is also theorized that the entrance and exit points of wormholes are not random but represent the end points (nodal clumps) of streams of dark matter which themselves act as conduits for the space-time distortion between them.
We will demonstrate that spatial drag is a result of high levels of graviton activity as well as the Higgs mechanism acting through one or more dimensions via frame-dragging, both rotational and linear, and static mass increase as nearby dimensions are expanded to a macro level by the density of dark matter locally. Further, that the exponential increase in spatial drag observed in spacecraft is a side-effect of the Bergman reactors used in deep space which take advantage of the local dark matter density by exploiting the same weaknesses in the fabric of space-time which result in wormholes only on a much smaller scale. Rather than a rip in space, small tears are produced from which energy is captured from the multitude of dimensions directly adjacent to our continuum - these energy producing distortions in space-time also intensify the effects from spatial drag. The gravitic drive itself uses the same dimension-manipulating fields as the Bergman reactor and is thus also subject to its advantages of small size and virtually unlimited power as well as its disadvantages of inducing spatial drag and inability to operate in close proximity to planets or other sizable masses.
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To commemorate the anniversary of the start of operation of the Large Hadron Collider on Earth.
ARCHIVE: Aroan Museum of Science and Technology.
Early Indications of Memo-chanting as a Performance Aide in Scientific Studies (circa 2008).
- http://www.youtube.com/watch?v=j50ZssEojtM&NR=1
M. Daare & W. Xolodnik, _Journal of the New Terra (Terra II) Institute of Applied Physics_ (2643).
Observations of the positions of galaxies in the universe at large point to the distribution of dark matter as being "lumpy". Given this, it should come as no surprise that this "lumpiness" has also been observed on a smaller scale right here in our local area of the galaxy - namely, the current region of space collectively known as the 'verse.
We postulate that this large concentration of dark matter in local space creates unique gravitomagnetic conditions which give rise to such phenomena as the ubiquity of wormholes and, indirectly, spatial drag. Away from objects of planetary mass or greater an array of phenomena unobserved on the Mother Planet (Sol) are here common and now exploited. (Ion storms may also be a result of this concentration but probably as a secondary or tertiary effect of wormholes. For instance, Aubrey argues that ion storms are not a result of wormholes themselves but of _travel_ through wormholes. (See: Aubrey, et al. "Ion Storms as a Mechanism of Einsteinian Paradox Resolution." _New Journal of Theoretical Physics_ (2634).))
We theorize that wormholes are a result of the stress on the fabric of space-time brought about by particularly dense clumps of dark matter acting not through gravity but via related mechanisms such as frame-dragging. It is also theorized that the entrance and exit points of wormholes are not random but represent the end points (nodal clumps) of streams of dark matter which themselves act as conduits for the space-time distortion between them.
We will demonstrate that spatial drag is a result of high levels of graviton activity as well as the Higgs mechanism acting through one or more dimensions via frame-dragging, both rotational and linear, and static mass increase as nearby dimensions are expanded to a macro level by the density of dark matter locally. Further, that the exponential increase in spatial drag observed in spacecraft is a side-effect of the Bergman reactors used in deep space which take advantage of the local dark matter density by exploiting the same weaknesses in the fabric of space-time which result in wormholes only on a much smaller scale. Rather than a rip in space, small tears are produced from which energy is captured from the multitude of dimensions directly adjacent to our continuum - these energy producing distortions in space-time also intensify the effects from spatial drag. The gravitic drive itself uses the same dimension-manipulating fields as the Bergman reactor and is thus also subject to its advantages of small size and virtually unlimited power as well as its disadvantages of inducing spatial drag and inability to operate in close proximity to planets or other sizable masses.
-----
To commemorate the anniversary of the start of operation of the Large Hadron Collider on Earth.
ARCHIVE: Aroan Museum of Science and Technology.
Early Indications of Memo-chanting as a Performance Aide in Scientific Studies (circa 2008).
- http://www.youtube.com/watch?v=j50ZssEojtM&NR=1
The relationship between the distribution of electro-magnetic energy across the nominal spatial-drag-profile of type III wormholes (eg Sedina-Odia) measured at points in space removed from the phenomenon will be the emphasis of this next discourse.
The classic three-dimensional profiling of siostral-curve particle collisions during a one-way time-coersive intra-locational object-transfer event (a 'warp') are recorded as a series of two-dimensional planar patterns - assuming multi repeatable position swapping - thus minimising the antenna/receiver characteristics of the sensor array, constant intensity vs. angle is obtained in the largest most sensitive detectors. The ability of the type III wormhole to establish energy patterns recordable several hours later is thus described in terms of graviton decay, without thereby the neccessity of establishing the directivity of every hadron-collision-type particle displaced by generated ions. The total power of the initial typeIII object's influx-sector negative radiation is therefore found to be in the order of 6 times ten to the 6 GeV, in what, being admittedley a crude approximation but does lead to our understanding of the rate of dispersal of ion storms using chi-square techniques and half-power quantisation effects as given by the Mu-gravity constant equals four pie over pheta G times Isa B where pheta G and Epsilon B are the paramagnetic constants of theoretical 'ordinary'-matter screening and dark-matter clumping at the sector respectiveley, measured of course some 1000km away thus avoiding interference.
And, categorically, yes.
The classic three-dimensional profiling of siostral-curve particle collisions during a one-way time-coersive intra-locational object-transfer event (a 'warp') are recorded as a series of two-dimensional planar patterns - assuming multi repeatable position swapping - thus minimising the antenna/receiver characteristics of the sensor array, constant intensity vs. angle is obtained in the largest most sensitive detectors. The ability of the type III wormhole to establish energy patterns recordable several hours later is thus described in terms of graviton decay, without thereby the neccessity of establishing the directivity of every hadron-collision-type particle displaced by generated ions. The total power of the initial typeIII object's influx-sector negative radiation is therefore found to be in the order of 6 times ten to the 6 GeV, in what, being admittedley a crude approximation but does lead to our understanding of the rate of dispersal of ion storms using chi-square techniques and half-power quantisation effects as given by the Mu-gravity constant equals four pie over pheta G times Isa B where pheta G and Epsilon B are the paramagnetic constants of theoretical 'ordinary'-matter screening and dark-matter clumping at the sector respectiveley, measured of course some 1000km away thus avoiding interference.
And, categorically, yes.
.................... And you can use them ALL! No, really:) Free of charge
When a nice juicy fat tfgt xc goes thru i link up the apparatus to a brownian-motion generator to make something like, ooh, a nice strong cup of tea, even from 1000km!
Reduce the frequency and intensity of ion storms and drink tea instead!
(Mu-gravity/siostral-radiation detectors/arrays, brownian-motion generators (kettles) and various varieties of tea are now available from Big Red One Headquarters in Pyronis L2)(find your own wormhole!).
Reduce the frequency and intensity of ion storms and drink tea instead!
(Mu-gravity/siostral-radiation detectors/arrays, brownian-motion generators (kettles) and various varieties of tea are now available from Big Red One Headquarters in Pyronis L2)(find your own wormhole!).