On the Anomalous Weight Losses of High Voltage Symmetrical Capacitors

TL;DR

This paper investigates an unusual weight loss effect in high voltage symmetrical capacitors, combining experimental measurements with theoretical analysis to explore potential new propulsion mechanisms.

Contribution

It presents experimental evidence of anomalous weight variations in high voltage capacitors and proposes a theoretical explanation using dipole forces, suggesting new physics insights.

Findings

Detected small inertia variations not explained by known interactions

Measured weight losses at 7kV consistent with theoretical predictions

Results align with previous experimental observations

Abstract

In this work, we analyzed an anomalous effect verified from symmetrical capacitor devices, working in very high electric potentials. The mastery of that effect could mean in the future the possible substitution of propulsion technology based on fuels by single electrical propulsion systems. From experimental measurements, we detected small variations of the device inertia that cannot be associated with known interactions, so that the raised force apparently has not been completely elucidated by current theories. We measured such variations within an accurate range and we proposed that the experimental results can be explained by relations like Clausius-Mossotti one, in order to quantify the dipole forces that appear in the devices. The values of the weight losses in the capacitors were calculated by means of the theoretical proposal and indicated good agreement with our experimental measurements for 7kV and with many other experimental works.