The Pendulum - Phase (Electro)Convergent Mixed Transducer
Abstract:
Current Status: Science works according to the scheme: hypothesis-prediction-denial-rejection. The rejection of the hypothesis is based on direct observation data, respectively, experiment. Also, any construct (concept, sentence, theory), no matter how well defined at a given moment, is refined based on new theoretical and experimental data. The results of the measurements of the pendulum experiments (Allais M., Saxl E., and other) analyzed in the Newtonian paradigm of interaction between bodies, highlight unexpected results (anomalies) The anomalies indicate a poor viability of the pendulum measurement system (a fact reflected by the lack of measurement control, the lack of observation/causality, and the lack of other characteristic properties of a system) and, a reduced physical consistency of the paradigm of construction of the experiment, data collection and analysis of the measurement results, respectively According to the research and results dissemination strategy, in an initial phase, according to the complex pendulum-type oscillator system structure, the sensitivity to the amplitude of the phasic signal was investigated respective, Machian – Maxwellian inertia signals. This article continues the presentation of the results of applying heuristic, analytical, and experimental methods for optimizing the complex pendulum-type oscillator system. The optimization process led to the synthesis of a complex Phase Electro-convergent Transducer system that highlights mechanical and electrical disturbances. Based on the results of the pendulum-type oscillator optimization, the initial definitions of (Electro)convergence were refined, and new concepts were defined to allow the description of the mechanism of phase interaction between the matrices of bodies in the Universe. The measurement results statistically validated the Mach-Maxwell paradigm of experiment construction, respectively, (Electro)convergence as a paradigm for analyzing measurement results.
Objectives: Increasing the viability of the pendulum oscillator by optimizing the physical consistency of the experimental construction paradigm.
Methods: Technical creation methods, the analytical and experimental method c) Results: A phase electro convergent mixed transducer which allows unexpected results ('anomalies') to be transformed into phase signals of the phenomenological Universe,
Conclusion: The optimization process led to the synthesis of a phase (electro)convergent transducer that highlights the mechano-electrical disturbances of the paraconical pendulum.
