Knot Physics

A geometric theory of particles, forces, and quantum mechanics

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Video

A Geometric Model of Quantum Mechanics

Knot Physics uses the geometry of spacetime to describe quantum mechanics.

Introduction

A geometric model of spacetime provides a unified description of gravity and quantum mechanics.

Introduction

A geometric theory of quarks results in asymptotic freedom, confinement, and gluons.

Introduction

Electroweak unification is a consequence of including knot geometry in the description of the electromagnetic field.

Video Course

The double slit experiment, virtual particles, and spacetime curvature are among the topics covered in this course.

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Presentations and Papers

The presentations and papers explain the theory in more detail, covering all topics above as well as the following.

Particles
Knot Physics predicts the particles that we observe.
Dark Matter
Knot Physics includes an explanation of dark matter that does not depend on discovering new particles.
Quantum Entanglement
Knot Physics has a natural explanation of quantum mechanics that includes non-local quantum entanglement.
Fine Structure Constant
Knot Physics includes a derivation of the fine structure constant from first principles with no fine tuning. The estimate is accurate to 0.1%. (Additional accuracy may result from calculating more Feynman diagrams.)