[12] viXra:1106.0051 [pdf] replaced on 27 Sept 2011
Authors: Jeffrey S. Keen
Comments: 16 pages, 12 Figures, 5 Tables.
Although counter-intuitive, many published papers have proved that scientific
experiments are affected by the act of observation, as well as the mind being affected
by local astronomical forces and factors, such as gravity, electromagnetism, spin, and
orientation. This paper details the ability of the mind to filter out all of these local
factors, and visualise experiments as if they were being undertaken in intergalactic
space. In order to undertake this research both the mind and quantitative observation
are required. As dowsing involves both it was adopted. The physical dimensions of
simple geometric shapes were measured to compare to the dimensions of the same
geometric shapes perceived �mentally� by the body�s senses. Global scaling has been
demonstrated in these laboratory conditions with simple equations obeying power
laws that involve the universal constant phi (f) and no arbitrary constants. Examples
are d = 0.5 * L ^ φ /2, Smax = 2 . r ^ φ, and a = φ * r ^ √φ. These formulae
cannot be random results. The implications are (1) that phi forms part of the structure
of space-time, (2) the important quantified discovery that the mind can interface with
the fundamentals of space-time and the cosmos. The latter concept supports ancient
Eastern philosophy, although it is alien to traditional western science.
Category: Relativity and Cosmology
[11] viXra:1106.0049 [pdf] submitted on 22 Jun 2011
Authors: Armando V.D.B. Assis
Comments: 2 pages.
In my paper [3], I obtain a Cold Big Bang Cosmology, fitting the cosmological data,
with an absolute zero primordial temperature, a natural cuto for the cosmological data
to a vanishingly small entropy at a singular microstate of a comoving domain of the cosmological
fluid. This solution resides on a negative pressure solution from the general
relativity field equation and on a postulate regarding a Heisenberg indeterminacy mechanism
related to the energy fluctuation obtained from the solution of the field equations
under the Robertson-Walker comoving elementar line element context in virtue of the
adoption of the Cosmological Principle. In this paper, we see the, positive, dierential
energy fluctuation, purely obtained from the general relativity cosmological solution
in [3], leads to the quantum mechanical argument of the postulate in [3], provided this
energy fluctuation is quantized, strongly supporting the postulate in [3]. I discuss the
postulate in [3], showing the result for the energy fluctuation follows from a discreteness
hypothesis.
Category: Relativity and Cosmology
[10] viXra:1106.0048 [pdf] submitted on 22 Jun 2011
Authors: H. Ron Harrison
Comments: 5 pages.
In reference [1] the basics of the new approach are outlined but in this
paper more details are given where the method is applied to rotating
bodies. Application to single bodies is often referred to as the de Sitter
effect and when applied to rotating bodies it is known as the
Lense-Thirring effect. This new approach gives the same form of result as the
generally accepted equations but with a different factor for the
Lense-Thirring effect. This variation is discussed.
Category: Relativity and Cosmology
[9] viXra:1106.0044 [pdf] submitted on 20 Jun 2011
Authors: Armando V.D.B. Assis
Comments: 2 pages.
In this paper, I discuss the postulate in [1], showing the result for the energy fluctuation follows
from a discreteness hypothesis.
Category: Relativity and Cosmology
[8] viXra:1106.0043 [pdf] submitted on 19 Jun 2011
Authors: Roald C. Maximo
Comments: 5 pages.
For over a century, the elusive nature of the outcome of the M/M experiment has
baffled generations of physicists from all around the world. Indeed, the analysis
has revealed some subtleties. I have already, for some time, had, intuitively, all
the pieces of the puzzle in my mind but didn't know how to correctly join them.
I tried twice without success but now, everything leads me to believe I could
finally assemble the whole picture. So, I go back to the subject in a detailed way
that seems to me absolutely clear and unambiguous.
Category: Relativity and Cosmology
[7] viXra:1106.0041 [pdf] replaced on 2014-03-14 09:42:54
Authors: Hontas Freeman Farmer
Comments: 10 Pages. This paper will be presented at the April 2014 APS conference http://meetings.aps.org/Meeting/APR14/Session/U15.7
The purpose of this paper is to reconcile observations of dark matter effects on the galactic and cosmological scales with the null results of astroparticle physics observations such as CDMS and ANTARES. This paper will also provide a candidate unified and simpler mathematical formulation for the Lambda CDM model. Unification is achieved by a combination of the f(R) approach, with the standard LCDM approach and inflationary models. It is postulated that dark matter-energy fields depend on the Ricci curvature R. Standard methods of classical and quantum field theory on curved space time are applied. When this model is treated as a quantum field theory in curved space-time, the dark matter-dark matter fermion annihilation cross section grows as the square of the Ricci scalar. It is proposed and mathematically demonstrated that in this model dark matter particles could have shorter lifetimes in regions of relatively strong gravity such as near the sun, near the Earth, or any other large mass. The unexpected difficulties in directly observing fermionic particles of dark matter in Earth based observatories are explained by this theory. The gravitational field of the Sun and Earth may effect them in ways the standard WIMP models would never predict.
Category: Relativity and Cosmology
[6] viXra:1106.0034 [pdf] submitted on 16 Jun 2011
Authors: A Beckwith
Comments: 22 pages, accepted for publication by JMP for August to October, i.e. it is in
their pool of to be published papers. 1 table.
We introduce a criterion as to the range of HFGW generated by early universe conditions. The 1 to 10
Giga Hertz range is constructed initially starting with what Grupen writes as far as what to expect of GW
frequencies which can be detected assuming a sensitivity of h ~ 10-27 . From there we examine the
implications of an earlier Hubble parameter at the start of inflation, and a phase transition treatment of
pre to post Planckian inflation physics via use of inflatons.. We close with an analysis of how gravitational
constant G may vary with time, the tie in with the NEC condition and how to select a range of relic GW
frequencies. The gravitational frequencies in turn may enable resolving a mis match between the datum
that the entropy of the center of the galaxy black hole is greater than the entropy of the present four
dimensional universe as we can infer and measure.
Category: Relativity and Cosmology
[5] viXra:1106.0031 [pdf] replaced on 4 Aug 2011
Authors: Johan Noldus
Comments: 9 Pages.
A theory of gravitation based upon a spinor connection and solder
form with a nonvanishing torsion tensor is constructed and a mapping to
Einstein Cartan theory is made. As applications, the
at Friedmann and
Schwarzschild solutions are derived.
Category: Relativity and Cosmology
[4] viXra:1106.0026 [pdf] submitted on 13 Jun 2011
Authors: Amrit S. Sorli, Dusan Klinar, Davide Fiscaletti
Comments: 11 Pages.
In the 20th century, physics has understood space and time as being coupled into a �spacetime�
manifold, a fundamental arena in which everything takes place. Space-time was considered to have
three spatial dimensions and one temporal dimension. Out of the mathematical formalism for the fourth
space-time component X4 = ict one can conclude that time t is only a numerical order of material change,
i.e., the motion that we obtain with clocks. Time is not a 4th dimension of space. For the description of the
Special Theory of Relativity it is here proposed an Minkowski 4D space whilst time t is merely a numerical
order of a photon motion in a 4D space. This view opens new perspectives on the understanding of the
quantum entanglement, where the 4D space becomes an immediate medium for quantum
communication.
Category: Relativity and Cosmology
[3] viXra:1106.0025 [pdf] replaced on 14 Jun 2011
Authors: Ron Bourgoin
Comments: 3 Pages.
Mercury precesses 5600 seconds of arc per century.
Newtonian celestial mechanics accounts for only 5557
arc seconds, leaving a discrepancy of 43�. In 1859,
Urbain Le Verrier, considering all the perturbations
in the solar system, wrestled only 35 arc seconds
more beyond the 1557�. Had he thought about the
effect of a spinning sun on Mercury�s orbit, he would
have gained another 6 arc seconds, for a total of 41�,
only 2.3% shy of General Relativity�s calculation.
Category: Relativity and Cosmology
[2] viXra:1106.0024 [pdf] replaced on 2012-11-29 12:32:03
Authors: Sergey G. Fedosin
Comments: 24 Pages.
In the weak-field approximation of covariant theory of gravitation the problem of 4/3 is formulated for internal and external gravitational fields of a body in the form of a ball. The dependence of the energy and the mass of the moving substance on the energy of field accompanying the substance, as well as the dependence on the characteristic size of the volume occupied by the substance are described. Additives in the energy and the momentum of the body, defined by energy and momentum of the gravitational and electromagnetic fields associated with the body are explicitly calculated. The conclusion is made that the energy and the mass of the body can be described by the energy of ordinary and strong gravitation, and through the energies of electromagnetic fields of particles that compose the body.
Category: Relativity and Cosmology
[1] viXra:1106.0001 [pdf] submitted on 4 Jun 2011
Authors: Lukasz Andrzej Glinka
Comments: 5 pages, Prespacetime Journal 2(5), pp.733-736 (May 2011)
In my recent paper [1] published by Prespacetime Journal I discussed
certain consequences of the entropy formula presented by A.W. Beckwith
and his coauthors [2]. The main result of the deductions were bonons and the
inflaton constant. However, I now consider the Beckwith entropy formula
to be wrong, and deductions based on this relation can therefore be at most
half-true. In this brief paper the right way to deduce the entropy formula is
concisely discussed, the results obtained previously are revised, and certain
new results are presented.
Category: Relativity and Cosmology