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Not Gravity. Pressure.

Mo-Theory replaces force and spacetime with pressure-based dynamics in the universal motic field.

Explore the Theory

Overview

Mo-Theory presents a new foundational model for physics based on pressure dynamics in a universal motic field. This comprehensive framework unifies quantum, relativistic, and galactic phenomena through a single mechanism—pressure variations—eliminating the need for separate physical theories across different scales.

Unlike conventional approaches, Mo-Theory derives results without external constants like G, h, or c, instead using scale-dependent parameters of the motic field. This paper demonstrates how Mo-Theory reproduces key physical predictions—Earth's gravity (9.8 m/s²), hydrogen's ground state energy (-13.6 eV), light bending near the Sun (1.75 arcseconds)—through pressure-based mechanisms rather than forces or spacetime curvature.

Experimental validation through acoustic-optical coupling provides direct evidence for the pressure-based framework. Mo-Theory resolves longstanding theoretical conflicts, explains phenomena currently attributed to dark matter and dark energy, and makes distinctive predictions that can be experimentally tested.

Mo-Field Pressure Dynamics Visualization
Figure 1: Visualization of Mo-Field pressure dynamics showing how pressure gradients form around mass-energy distributions.

Key Concepts

The Mo-Field

The foundational concept of Mo-Theory—a universal pressure-based field that permeates all space and serves as the medium through which all physical interactions occur. Unlike conventional fields in physics, the Mo-Field is not a force field but a pressure field, with pressure gradients serving as the fundamental mechanism for all interactions.

Motics as Pressure Units

The fundamental units of pressure in the Mo-Field. They represent the quantitative measure of pressure at any point in the field and serve as the basis for all mathematical formulations in Mo-Theory.

Mo-Light

Light conceptualized as pressure release in the Mo-Field. This reinterpretation explains electromagnetic radiation as a pressure-based phenomenon, providing a unified understanding of light's wave-particle duality.

Mo-Burst

A localized pressure event in the Mo-Field that can trigger cascading effects. Mo-Bursts explain various quantum phenomena and energy releases observed in physical systems.

Mo-Tether

The residual memory in the Mo-Field that maintains connections between interacting entities. This concept explains entanglement and other non-local phenomena in quantum physics.

Mo-Time

Time reconceptualized as the oscillation rate of pressure in the Mo-Field, not as a dimension. This perspective resolves paradoxes in relativity and quantum mechanics by providing a unified understanding of temporal phenomena.

\[ \Pi = Z \cdot \rho_m \cdot v_m \cdot \sigma \]

Where:

  • \(\Pi\) = Total motic pressure
  • \(Z\) = The symbolic equilibrium state (Zufro)
  • \(\rho_m\) = Motic density
  • \(v_m\) = Motic velocity
  • \(\sigma\) = Pressure distribution coefficient

Explore Mo-Theory

Introduction

Explore the core motivation of Mo-Theory, including unifying physics across quantum, classical, and cosmological scales, eliminating dependence on arbitrary constants, and explaining observations without dark matter or dark energy.

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Theoretical Framework

Discover the foundational concepts of Mo-Theory, including the Mo-Field, Motics, Mo-Light, Mo-Burst, Mo-Tether, and other key elements that form the basis of this revolutionary approach to physics.

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Mathematical Derivation

Examine the fundamental pressure equation and its derivations, including pressure gradients, time dilation through pressure, hydrogen energy levels, and gravitational motion without spacetime.

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Experimental Matching

See how Mo-Theory aligns with real data, including light bending near the Sun, the Pioneer anomaly, gravitational lensing, the flyby anomaly, and Mo-Touch experiments showing changes in lux from pressure.

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Unified Calibration

Learn about the Refined Universal Motic Density Profile and how the same equation fits solar data, deep space, and quantum domains through parameter definitions and pressure gradients.

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Discussion & Conclusion

Review how Mo-Theory unifies existing physics using pressure, is compatible with both relativity and quantum phenomena, and eliminates dark matter/dark energy assumptions.

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Author

Mohamed A Mohamed

Independent Researcher

ORCID: 0009-0003-1195-9663

DOI: 10.5281/zenodo.15232652

Step beyond gravity. Discover the universe in pressure.