PROBLEMS LIBRARY — OVERVIEW
How the Field Medium model resolves the biggest open questions in modern physics
PROBLEMS LIBRARY — OVERVIEW
How the Field Medium model resolves the biggest open questions in modern physics
Modern physics describes what happens using powerful mathematics —
but often without a physical mechanism behind the equations.
The Field Medium (FM) model restores the missing physics.
This section presents the major unresolved problems in mainstream physics
and shows how FM resolves them using one physical idea:
Space is a continuous, elastic field where waves, vortices and resonances create everything we observe.
Why We Need a Solutions Section
Removing the physical medium from physics created a long list of paradoxes:
why everyone measures the same c
what a photon actually is
why waves and particles behave as both
how entanglement works without a signal
how mass arises from point-like abstractions with no structure
how gravity acts without a mechanism
why the vacuum contains energy
why galaxies rotate too fast
why redshift occurs
why the Standard Model needs dozens of parameters
FM replaces these abstractions with one mechanical framework:
👉 vortices + waves + saturated resonances in a real field
Everything else follows from this.
PROBLEMS INDEX
A curated overview of the major open problems in physics — and how FM resolves them.
Each problem page will become available over the next weeks and will contain:
• the mainstream paradox
• why current theories struggle
• the FM interpretation (mechanical explanation)
• diagrams / illustrations
• technical explanation
1 — Where Do Particles Actually Come From?
QM describes particle behavior but not particle creation.
FM: disturbances → micro-vortices → surviving vortex modes → stable vortex-resonances → particles.
2 — Why Is c Always Measured as c?
Observed but not explained.
FM: all observers measure the wave speed of their own local medium
because clocks, rulers, and photons share the same field state.
3 — What Is a Photon, Physically?
QM: a point with no size.
FM: a traveling volumetric 3D tension pulse with a sinus-like internal profile.
4 — Why Do Clocks Slow in Gravity?
Relativity describes the effect.
FM: process rate slows in compressed medium.
5 — Why Does Energy Resist Acceleration?
“Relativistic mass increase” has no mechanism.
FM: motion compresses the medium ahead → resistance rises elastically.
6 — Why Does Gravity Bend Light?
GR invokes curvature.
FM: density/tension gradients change wave speed → bending.
7 — What Causes Entanglement?
QM offers no mechanism.
FM: shared vortex phase-structure; one resonance in two locations.
8 — Why Do Galaxies Rotate Too Fast? (Dark Matter)
FM: large-scale torsional field flow + global tension gradients stabilize rotation.
9 — Why Does Redshift Occur?
FM: tension pulses lose energy climbing out of compressed regions
and via long-range medium relaxation.
10 — Why Does “Empty Space” Contain Energy?
FM: the field medium contains tension, orientation and structure.
11 — How Can Particles Appear From Nothing?
FM: strong disturbances → vortices → short-lived resonance loops.
12 — What Sets the Value of c?
FM: the natural wave speed of the medium, c_local = √(S / ρ).
13 — Why Does Mass Affect Space?
FM: mass compresses the medium → density/tension gradient.
14 — Why Does Time Behave Differently Near Mass?
FM: process rate slows when the medium is loaded.
15 — Why Are There Families of Particles?
FM: only certain vortex-resonance modes are stable.
16 — Why Do Magnetic Fields Exist in “Nothing”?
FM: magnetic structures = orientation patterns in the medium.
17 — Why Do Cosmic Structures Look Fluid-Like?
FM: because the field is an elastic medium capable of flow.
18 — Why Does the Universe Generate Order Instead of Chaos?
FM: the medium constantly generates vortices; a tiny fraction stabilize →
build a hierarchy of stable vortex-resonances → structure formation.