Unveiling the Mysteries: The Differences Between Gravity and Magnetism

When discussing fundamental forces such as gravity and magnetism, it becomes evident that these phenomena, though distinct, are interconnected through their origins in particle field asymmetry. This article introduces a comprehensive analysis to differentiate gravity and magnetism, displaying their underlying mechanisms and unique characteristics. Let's dive into these fascinating topics and uncover the principles behind both forces.

Gravitational Force and Its Mechanism

The concept of gravity stems from the interactions of masses, either stationary or in motion. When masses interact, they create a gravitational field that influences other masses within the vicinity. The gravitational field is monopole, meaning it is characterized by its singularity at the source of mass. This is in contrast to the dipole nature of magnetic fields, produced by moving electric charges. The effect of gravity diminishes with the square of the distance (1/r^2), making it a relatively weak force compared to other fundamental forces.

Magnetic Force and Its Mechanism

Magnetism, a result of moving charges, is fundamentally a dipole field where charges moving in a direction create a magnetic field. The magnetic field is dependent on the orientation and movement of the charges and interacts with other moving charges. Its effect decreases with the cube of the distance (1/r^3), indicating a more localized influence than gravity. Notably, magnetic fields do not act on electrically neutral objects, unlike gravity, which affects any object with mass.

The Role of Particle Field Asymmetry

Both gravity and magnetism can be understood as a result of particle field asymmetry. Gravity is caused by a simple asymmetry in the magnitude of particle momentum, specifically in the upward and downward directions. In contrast, magnetism arises from a more specific form of asymmetry, namely the polarization in the direction of particle spin. The forces manifest differently due to these underlying asymmetries:

Gravity: Absorption

Gravity primarily involves the absorption of particle momentum from background fields, leading to a reduction in upward momentum. The effect of gravity is universal, acting on any mass, regardless of its composition or state.

Magnetism: Filtration and Reduction

Magnetism, on the other hand, involves the crystalline structure of a material asymmetrically filtering and/or reducing the spin of particles that permeate its volumetric mass. This selective filtering is responsible for the magnetic properties observed in certain materials.

A Universal Principle

Both gravity and magnetism share a common origin in particle field asymmetry. A new law of physics asserts that continuous immersion in approximately isometric permeative particle fields automatically causes a gravitational effect. Similarly, the filtering of particle spin by a magnetic material can create a magnetic field. These principles demonstrate the fundamental interconnectedness of these phenomena and provide a unified perspective on their behaviors.

In conclusion, while gravity and magnetism appear distinct, they are both manifestations of particle field asymmetry. Understanding these forces requires recognizing their unique mechanisms and the underlying principles that govern their interactions. Whether it's the monopole nature of gravity or the dipole nature of magnetism, the study of these forces continues to be a rich and evolving field of scientific inquiry.

References

1. [12-13-2020] - 'New Law of Physics: Continuous Immersion in Particle Fields Leads to Gravitational Effects'.