Alexandrian Unified Field Geometry : Conceptual Framework 2.1 — Post-Testing Update

This upload presents Version 2.1 of the Alexandrian Unified Field Geometry—a geometric approach to field unification developed by Alexander Sucala. AUFG proposes that electromagnetic, gravitational, and inertial behavior are not separate forces, but different geometric modes of a single rotating manifold built from triangulated and vesica-structured curvature.

This version includes major updates following early successful computational experiments. A simplified scalar-field embedding was tested for stability, coherence, and simulation viability. AUFG passed:

• Oscillator coherence tests
  
  

• Laplacian spatial-curvature tests
  
  

• CFL (Courant) numerical stability checks
  
  

• Energy conservation tracking
  
  

These tests do not confirm the theory, but they demonstrate something singular among unification attempts:

AUFG is computable and simulatable, even in its earliest first form.

This document does not include equations, algorithms, numerical coefficients, or any computational implementation. It serves as a conceptual update, a public research log, and an IP-safe milestone marking the transition of AUFG from an initial idea to a structured research program.

Key Concepts:

• Triadic manifold architecture
  
  

• Vesica-based field transition geometry
  
  

• 360° rotational field manifold
  
  

• Coupled capacitive, inductive, and torsional modes
  
  

• Early simulation-based validation
  
  

• Proposed pathway toward unified field modeling