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Stephen J. Puetz
local time: 2020-07-12 03:06 (-10:00 )
Stephen J. Puetz (Abstracts)
Titles Abstracts Details
  • Neomechanical Gravitation Theory (2012) [Updated 3 years ago]
    by Glenn Borchardt, Stephen J. Puetz   read the paper:

    This paper proposes that gravity is caused by the actions of non-isotropic, heterogeneous distributions of aether particles throughout the universe. The Gravitational Pressure Gradient of a massive body describes these divergent aether distributions. The activity and density of free aether particles are greatest in the so-called vacuum of intergalactic space; they are least where the density of baryonic matter is greatest. This gradient is analogous to the atmospheric pressure gradient that surrounds Earth, but in reverse. Aethereal pressure increases with distance from the center of Earth just as it does for all celestial vortices. Ordinary baryonic matter consists of aether complexes that limit the free motion of aether particles, displacing them and producing what is, in effect, a sort of vacuum for aether. In addition to displacement, neomechanical interactions involving the absorption and emission of motion cause decreases in the activity of proximal aether, resulting in the pressure gradient. The result is that gravitation is a universal, but local, phenomenon. This proposal is consistent with the assumption of infinity, which underlies neomechanics and the belief that there are no true pulls in nature, as recognized in Newton's laws of motion. It avoids the problems of non-local causes of gravitation conjectured by Le Sage. The layering produced by a rapidly rotating celestial vortex during its early evolution pushes baryonic matter toward its axis. Satellites stay in orbit because distal aether pressure is greater than proximal aether pressure. The theory also predicts that the velocity of light is a function of aether density, in tune with gravitational and galactic redshift measurements.


  • The Unified Cycle Theory: Introduction & Data (2010) [Updated 9 years ago]
    by Stephen J. Puetz   read the paper:

    This paper introduces a sequence of cycles found in nature. Dubbed the Extra-Universal Wave Series (EUWS), these cycles may originate from outside of our observable universe. Collectively, the cycles were first discovered in 2008 and published in The Unified Cycle Theory in 2009. However, many of these cycles were already discovered on an individual basis prior to 2008. Examples include the ~ 516-yr climate cycle determined from ocean sediments, the ~ 1547-yr Dansgaard-Oeschger climate cycle, the ~ 4640-yr Bond climate cycle, the ~ 125-kyr climate cycle, the ~ 30-myr extinction cycle, and Earth's ~ 822-myr cycle in crustal formation. The Unified Cycle Theory provided a breakthrough by linking these cycles as part of an infinite harmonic sequence. Unlikely as it may seem, individual wavelengths in this sequence are precisely separated from adjacent cycles by a factor of three. Linkage implies these cycles share a common source. Whether the EUWS cycle is as short as 9.57 days or as long as 22.2 billion years, the source of these fluctuations must be the same. Heretofore, geologists have concentrated on processes internal to Earth's ecosystem to explain volcanic episodes, when, in fact, oscillations in star formation rates suggest these cycles were already shaping our universe prior to Earth's existence. A single equation describes the EUWS oscillations. This paper presents the equation, provides graphics of theoretical oscillations, and demonstrates the occurrences of these cycles in nature. The presence of EUWS cycles can be detected in a wide variety of ways including star formation oscillations, episodes of volcanism, global climate fluctuations, evolution of new gene families, mass extinction cycles, spots in the Sun and stars, civilization cycles, and financial panic cycles.


  • The Unified Cycle Theory: Statistical Validation (2010) [Updated 9 years ago]
    by Stephen J. Puetz   read the paper:

    Since publication of The Unified Cycle Theory in 2009, only one major criticism has surfaced. Some reviewers claim that random processes in the universe occur often enough to give the appearance of periodicity, producing the oscillations described in the theory. This paper statistically tests the null hypothesis that random fluctuations caused the Extra-Universal Wave Series (EUWS) cycles. To test this null hypothesis of randomness, several statistical methods were used to objectively assess the observations. The tests include the following methods: Lomb-Scargle periodograms that determine the power of frequencies detected in each time-series; smoothed periodograms that estimate wavelengths when multiple frequencies cluster together in the spectrum; smoothed periodograms that determine confidence levels associated with a frequency; and Monte Carlo simulations that show how often random numbers produce correlations equivalent to those detected between the cycles from nature and EUWS models. These tests were performed on 31 different time-series. The data included histories of star formation rates, asteroid impacts, volcanic activity, evolution (appearance of new gene families), global climate oscillations, spot activity on stars and the Sun, geomagnetic activity, the rise and fall of major civilizations, commodity prices, and stock market prices. This paper also discusses issues related to the testing process. The major issues include the reliability of signal measurements, the reliability of age estimates, and various forms of sampling bias. The magnitude of age-errors is especially critical ? because small age-errors greatly impact spectral analysis. In sum, a significant percentage of the tests rejected the null hypothesis of randomness. For these cycles, the theory of random fluctuations is no longer credible. An alternative theory must be sought. Now, the EUWS cycles, as described in The Unified Cycle Theory, become the leading candidates for explaining these oscillations.


  • Unified Cycle Theory: Integration Toward a Cause (2010) [Updated 3 years ago]
    by Glenn Borchardt, Stephen J. Puetz   read the paper:

    Previous work supplied the data and statistical support for the Unified Cycle Theory, which showed the connection between various recurring earthly as well as cosmic phenomena. A theoretically infinite sequence of cycles (EUWS) occurs throughout the universe, connected by a single factor of three. The period of each larger cycle, whether it be a geological epoch or climatic fluctuation, is three times the next smallest cycle. Statistical analysis showed that the identified cycles are neither subjective nor random. The universal range of these cycles begs a universal cause. With naturally occurring oscillations tied to the EUWS cycles serving as key evidence, we present a new Theory of Infinitely Oscillating Density and Magnetism. We hypothesize that these fluctuations conform to Borchardt's Ten Assumptions of Science. In terms of univironmental determinism, all microcosms within the universe constantly oscillate in both density and magnetism. These microcosms are bathed in a sea of supermicrocosms capable of transmitting different motions dependent on the EUWS fluctuations. The Theory of Infinitely Oscillating Density and Magnetism integrates concepts from both standard and alternative theories. This integrated theory helps to explain numerous mysteries that have long puzzled physicists, astronomers, geologists, climatologists, economists, and sociologists.