Unlocking the Secrets of Non Force Electromagnetic Fields in Nature and Experiments

Introduction

Understanding the behavior of electromagnetic fields is crucial for advancing scientific knowledge and practical applications. This study, conducted by VV Aksenov, explores non-force electromagnetic fields in nature and their experimental validation on Earth. The research sheds light on fundamental geophysical phenomena, including the Earth’s magnetic field dynamics and potential applications in earthquake prediction.

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Key Findings and Insights

• Theoretical Basis: The study builds upon Yu. Parker’s ideology of cosmic magnetic fields but challenges its applicability to Earth due to differences in Reynolds magnetic numbers.
• Experimental Evidence: The research confirms the existence of non-force toroidal electromagnetic fields using data from global geophysical surveys (1933, 1957/58, 1964/65).
• Geophysical Implications: These fields originate from spherical toroidal electric currents in the Earth’s core and ionosphere, contributing to variations in geomagnetic properties.
• Earthquake Prediction: The study suggests that fluctuations in non-force electric fields may act as short-term earthquake precursors, a promising avenue for seismic monitoring.

Scientific Context and Broader Implications

Understanding Earth’s Electromagnetic Phenomena

The presence of toroidal non-force electromagnetic fields challenges traditional models of Earth’s magnetic field generation. Unlike force-driven fields, these fields arise from natural sources such as:

Toroidal currents in the Earth’s core
Ionospheric variations
Seismic activity-induced electromagnetic changes

According to the American Geophysical Union (AGU), monitoring these interactions is crucial for improving our understanding of geomagnetic disturbances and their effects on Earth’s climate and technology.

Read the Full Study

A complete analysis of these groundbreaking findings is available in the International Journal of Physics Research and Applications. Access the study here:
10.29328/journal.ijpra.1001026

Practical Applications and Future Research

Seismic Monitoring: Investigating how non-force electric fields correlate with seismic events.
Geomagnetic Studies: Refining global geomagnetic models using toroidal field measurements.

Space Weather Research: Understanding solar-induced variations in Earth’s magnetic environment.

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