Additions C35 and C45: C35 – Modulation Variants and the Observed Spectrum This chapter introduces the extended modulation‑space interpretation of the electromagnetic spectrum within the MCM. It clarifies the distinction between frequency, amplitude, and geometric modulation variants and explains how the observed EM spectrum emerges as a coupling window within the broader modulation space of the medium. C45 – Double‑Slit and Tension Modulation in the MCM This chapter provides the foundational mathematical description of the double‑slit experiment in the MCM. It derives the superposition of tension‑modulation modes, explains the resulting interference structure, and establishes the basis for the coupling‑focused analysis developed in Volume 7. Ergänzungen C35 und C45: C35 – Modulationsvarianten und das beobachtete Spektrum Dieses Kapitel führt die erweiterte Modulationsraum‑Interpretation des elektromagnetischen Spektrums im MCM ein. Es präzisiert die Unterscheidung zwischen Frequenz‑, Amplituden‑ und geometrischen Modulationsvarianten und zeigt, wie das beobachtete EM‑Spektrum als Kopplungsfenster innerhalb des größeren Modulationsraums des Mediums entsteht. C45 – Doppelspalt und Spannungsmodulation im MCM Dieses Kapitel liefert die grundlegende mathematische Beschreibung des Doppelspalt‑Experiments im MCM. Es leitet die Überlagerung von Spannungsmodulationsmoden her, erklärt die resultierende Interferenzstruktur und bildet die Grundlage für die kopplungsorientierte Analyse in Band 7.Volume 3 (C10–C90) of the Monistic Continuum Model (MCM) develops the foundational particle architecture of a continuum‑based cosmos. Building on the general medium ontology introduced in earlier volumes, this part establishes the mechanical principles by which stable vortex configurations give rise to the observable properties of matter. Instead of treating particles as discrete point‑objects, the MCM interprets them as dynamically balanced spiral vortices whose geometry, rotational dynamics, and tension distribution determine mass, charge, spin, stability, and interaction. Chapters C10–C20 introduce the general vortex ontology and the criteria for stability within the medium. C30–C60 construct the three fundamental stable vortex modes—electron, proton, and photon—each derived from a unified set of mechanical principles. C70–C80 analyse decay, recombination, and coupling behaviour, while C90 synthesizes the full particle picture into a compact conceptual framework that forms the basis for the subsequent volumes of the 20‑part MCM series. This volume provides the first complete and systematic formulation of matter within the Monistic Continuum Model and serves as a core reference for the theoretical structure of the MCM.
Walter Moosbrugger (Thu,) studied this question.