Gravitation and Inertia

21 February 2026

Gravity - and its long kept secrets

Introduction - why the fuzz

Gravity Is Not a Force

Gravity :Gravity is not a fundamental force. It is the residual of otherwise closed resonance channels whose inertial response could not remain perfectly canceled.

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Dynamics of Energy-Density Optimization

04 February 2026

The dynamics of energy-density optimization. Inertia, Time and Gravitation as Consequences of Resonance-Coherence Loss
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Inertial Decoupling

04 February 2026

Gravity as temporary decoupling
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Inertia

20 January 2026

Inertia as Resistance to State Change

In standard physics, inertia is commonly introduced as the resistance of a body to acceleration in space. Operationally, it is the property that relates an applied force to the resulting acceleration ($F=I*a$). While this definition is sufficient for many applications, it already represents a projection of a more general concept.

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Inertia and acceleration

14 November 2025

The Magic of Matter

Why matter is local and resists motion at light speed

1. Inertia: the core phenomenon

1.1 Standard view

Inertia is the resistance of a physical system to changes in its state of motion when acted upon by an external force.

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The electro-magnetic field

14 November 2025

Rotonal Definition of the Electron-Field

(A) Introduction

We will dive into the electromagnetic field today, or rather start with the electrical field.

We will see:

  • The coulomb potential arises from the uniformly rotating directional distribution of the Rotonal Wave-Tube
  • The force onto a single electron/roton emerges from the integral of all rotational axes directions of the environmental electrons
  • The electric (field) lines in typical diagrams show in which direction the rotation axis of the roton/electron is dragged (initially causing precession)
  • The density of the lines (1 line per Electron if you like) tells how strong this precession force is.
  • The magnetic (field) lines tell you in which direction (and how strongly) the electrons-body will be accelerated as a result, based an the applied forces by the electrical field.

Roton axis orientations
Figure – Lines show the direction of the force applied to the axis of the roton (tilt). This corresponds to the Electrical-Field.

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