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.

Inertia and acceleration

14 November 2025

The magic of matter

Why is matter local and does not want to travel at the speed of light?

Inertia

Inertia: is the resistance of a system to behave according to an external force (field).

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.

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

Rotonal Definition of the Electron-Field

(A) Introduction

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#Inertia

Inertia

Inertia as Resistance to State Change

Read More

Inertia and acceleration

The magic of matter

Inertia

Read More

The electro-magnetic field