An Empirical Exploration of theFaraday/Einstein Unified Force Field Quandary

A longstanding limitation in the development of a comprehensive theoretical foundation for physical science has been the scarcity of data to fully explicate the hypothesized interrelationship of gravity, electricity and magnetics (GEM). Michael Faraday and Albert Einstein devoted extensive time and energy to uncover experimental evidence and develop theoretical models to integrate GEM forces and establish empirical foundations for their unified field theories. To this day, there remains a dearth of observational evidence which could allow a detailed investigation of factors which might reasonably be considered likely contributors to the hypothesized interrelationships of GEM force fields.

An observational approach, designed to explore the Faraday/Einstein unified force field hypotheses and search for preliminary evidence of GEM unification is proposed. Utilizing geophysical measures and calculations of local gravitational acceleration (g), an experimental methodology was developed. Preliminary evidence suggests that this approach yields (a) predictive patterns of diurnal geomagnetic ELF behavior, (b) highly correlated geomagnetic and atmospheric electrical activity, and (c) abundant evidence of three factor (GEM) correlations. These findings, viewed in the context of gravitationally driven geophysical strain (g-strain), offer a conceptually robust and methodologically sound path forward for an empirical exploration of the Faraday/Einstein unified force field quandary.