scholarly journals Experimental Evidence that Hubble’s Parameter could Be Reflected in Local Physical and Chemical Reactions: Support for Mach’s Principle of Imminence of the Universe

2013 ◽  
Vol 16 ◽  
pp. 86-92 ◽  
Author(s):  
Michael A. Persinger
Keyword(s):  
Magnetic Fields ◽  
Hubble Parameter ◽  
Spring Water ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
Hubble’S Parameter ◽  
Biochemical Effects ◽  
Current Value ◽  
Physical And Chemical ◽  
The Universe

Mach’s principle of immanence of the universe requires the behavior of local matter to depend upon the remainder of the universe. Hubble’s constant could be employed to calculate the inference of this condition. More than a decade ago specific types of temporally patterned magnetic fields generated by serial 3 ms point durations were shown to produce conspicuous biochemical effects. When the product of this duration and the diameter of a proton was divided into Planck’s Length the estimated Hubble’ parameter was 66.7 ±1.3 km∙ s-1·MParsec-1 which is remarkably similar to the current value of 67.8 km∙ s-1. Photon emissions from chemoluminescent reactions and discrete shifts in pH within spring water during exposure to specific patterns of magnetic fields revealed optimal responses with remarkably similar z-transformations when point durations of the constructive voltages were 3 ms or 1 ms but not 2, 4, or 5 ms. Cumulative results indicate proton (3 ms) and electron (~1.5 ms) processes. These results support Mach’s contention and indicate that relatively accurate inferences of the Hubble parameter might be obtained with more precise instrumentation on the terrestrial surface.

scholarly journals COSMOLOGY AND LOCAL PHYSICS

2002 ◽  
Vol 17 (20) ◽  
pp. 2667-2671 ◽  
Author(s):  
GEORGE F. R. ELLIS
Keyword(s):  
Large Scale ◽  
Large Scale Structure ◽  
Scale Structure ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
The Universe

This article considers the two-way relationship between local physics and the large scale structure of the universe - in particular considering Olber's paradox, Mach's principle, and the various arrows of time. Thus the focus is various ways in which local physics is influenced by the universe itself.

Mach’s principle and the creation of matter

1963 ◽  
Vol 273 (1352) ◽  
pp. 1-11 ◽  
Keyword(s):  
Inertial Frame ◽  
Relativity Theory ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
Local Inertial Frame ◽  
Continuous Creation ◽  
Remarkable Degree ◽  
The One ◽  
Creation Of Matter ◽  
The Universe

Accurate experiments have shown that the local inertial frame is the one with respect to which the distant parts of the universe are non-rotating. This coincidence, first noticed by Newton, later led to the formulation of Mach’s principle. It is known that relativity theory by itself cannot explain this coincidence. The introduction of a scalar ‘creation field’ into the theory is likely to improve the situation. Calculation shows that the continuous creation of matter has the effect of smoothing out any irregularities in the universe as it expands, while rotation, if present, becomes less and less. This explains the observed remarkable degree of homogeneity and isotropy in the universe.

scholarly journals Evidence for a Causal Relationship between Mach’s Principle and the Quantitative Latency for Universal Entanglement

2014 ◽  
Vol 34 ◽  
pp. 80-86
Author(s):  
Michael A. Persinger ◽  
Stanley A. Koren
Keyword(s):  
Independent Solution ◽  
Zero Point ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
Frame Dragging ◽  
Level Zero ◽  
Inertial Frames ◽  
Real Value ◽  
Non Local ◽  
The Universe

Support for Mach’s principle of the Prominence or the Immanence of the Universe which states that the behavior of any part of the Cosmos is determined by all of its parts requires quantitative convergence from the appropriate combination of universal parameters. Applications of recent calculations based upon a diffusivity with a real value (~1023 m·s-1) revealed solutions that are consistent with the concept of dragging inertial frames and geodetic (Lense-Thirring) precession. The latency for non-local entanglement around the earth is similar to frame dragging as measured by Ciufolini. The independent solution for this real value to capture Mach’s “whole universe” requires the contribution from quantum-level Zero Point Fluctuations. Consideration of this value for solar-terrestrial distances could explain the non-local “gravitational” effects upon biological reactions that appear to precede electromagnetic effects. The verification of the “entanglement latency” by independent methods could produce the validation for Mach’s principle.

scholarly journals Sources of inertia in an expanding universe

Open Physics ◽  
2015 ◽  
Vol 13 (1) ◽  
Author(s):  
Kjell Prytz
Keyword(s):  
Standard Model ◽  
Significant Part ◽  
Expanding Universe ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
The Standard Model ◽  
Expansion Of The Universe ◽  
The Universe

AbstractIn a cosmological perspective, gravitational induction is explored as a source to mechanical inertia in line with Mach’s principle. Within the standard model of cosmos, considering the expansion of the universe and the necessity of retarded interactions, it is found that the assumed dynamics may account for a significant part of an object’s inertia.

scholarly journals THE PROBLEM OF INERTIA IN FRIEDMANN UNIVERSES

2011 ◽  
Vol 20 (07) ◽  
pp. 1205-1214 ◽  
Author(s):  
JOSEPH SULTANA ◽  
DEMOSTHENES KAZANAS
Keyword(s):  
Electromagnetic Fields ◽  
Point Charge ◽  
Cosmological Parameters ◽  
Inertial Force ◽  
Mach's Principle ◽  
Mach’S Principle ◽  
Curved Spacetime ◽  
Far Fields ◽  
Inertial Induction ◽  
The Universe

In this paper we study the origin of inertia in a curved spacetime, particularly the spatially flat, open and closed Friedmann universes. This is done using Sciama's law of inertial induction, which is based on Mach's principle, and expresses the analogy between the retarded far fields of electrodynamics and those of gravitation. After obtaining covariant expressions for electromagnetic fields due to an accelerating point charge in Friedmann models, we adopt Sciama's law to obtain the inertial force on an accelerating mass m by integrating over the contributions from all the matter in the universe. The resulting inertial force has the form F = -kma, where k < 1 depends on the choice of the cosmological parameters such as ΩM, ΩΛ and ΩR and is also redshift-dependent.

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