2020
DOI: 10.5539/apr.v12n2p33
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Experimental Verification of Anomalous Forces on Shielded Symmetrical Capacitors

Abstract: In this work, we measured the magnitude of forces raised from the operation of symmetrical capacitor devices working in high electric potentials. Our experimental measurements were realized with basis on an improved setup which aimed significant reduction of ionic wind by means of an efficient shield. We observed small variations of the device inertia within an accurate range and we confirmed with good accuracy that the experimental results can be explained by a generalized quantum entanglement hypothesis whic… Show more

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Cited by 5 publications
(2 citation statements)
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“…In order to experimentally investigate the existence of such an effect in devices operating in rotation, we decided to establish a new experimental setup involving a rotor but considering a new physical configuration. As in our earlier works, we realized that magnetic dipoles and electric dipoles can both present such anomalies in the context of the generalized quantum entanglement (GQE), we implemented to perform some measurements of anomalous forces for a electrostatic material because in some of our previous works [18][19][20][21][22] we verified strong magnitudes of forces involving this kind of material subjected to high voltage.The effect detected in the gyroscopes cannot be successfully associated to any conventional theory. So, we elaborated the theoretical description of such forces in the experiments by means of a theoretical model based on GQE, by considering as quantum witnesses the electric permittivity and as macroscopic observable the angular momentum of the dielectric rotors.…”
Section: Introductionmentioning
confidence: 92%
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“…In order to experimentally investigate the existence of such an effect in devices operating in rotation, we decided to establish a new experimental setup involving a rotor but considering a new physical configuration. As in our earlier works, we realized that magnetic dipoles and electric dipoles can both present such anomalies in the context of the generalized quantum entanglement (GQE), we implemented to perform some measurements of anomalous forces for a electrostatic material because in some of our previous works [18][19][20][21][22] we verified strong magnitudes of forces involving this kind of material subjected to high voltage.The effect detected in the gyroscopes cannot be successfully associated to any conventional theory. So, we elaborated the theoretical description of such forces in the experiments by means of a theoretical model based on GQE, by considering as quantum witnesses the electric permittivity and as macroscopic observable the angular momentum of the dielectric rotors.…”
Section: Introductionmentioning
confidence: 92%
“…So, we elaborated the theoretical description of such forces in the experiments by means of a theoretical model based on GQE, by considering as quantum witnesses the electric permittivity and as macroscopic observable the angular momentum of the dielectric rotors. The basic conjecture relies on that macroscopic observables can present influence in their magnitudes by a huge collection of microscopic particles (as the magnetic dipoles in rotors of gyroscopes) has been checked in a lot of physical systems and presented consistency with experiments, as capacitors [18][19][20][21], magnetic cores [23], superconductors [24,25], laser diodes [26], piezoelectric devices [27][28][29] and electromagnetic drives [22,30]. Based on that idea, we conceived an analogue to the gyroscope described in Ref.…”
Section: Introductionmentioning
confidence: 99%