CND Theory has the potential to create a more cohesive framework that bridges the gap between general relativity and quantum theory (page 5)

Alignment of Theory: Universe Creation Calculation

The universe creation calculation we developed fits well within our updated theory that integrates general relativity, quantum mechanics, and Cosmo Numerical Dynamics. Here’s how it aligns with the key principles of our updated theory:

1. General Relativity

Spacetime Curvature:

• The concept of numerical mass creating curvature in spacetime is consistent with Einstein’s field equations.
• This accounts for the influence of numerical mass and numerical attraction on the structure and behavior of spacetime.

On-On, On-Off, and Off-On States:

• On-On states represent fully activated universes with stable interactions and spacetime curvature.
• On-Off states represent potential universes with dormant conditions, where numerical mass and energy fail to generate stable curvature.
• Off-On states represent oscillating universes with transient interactions and fluctuating spacetime curvature.

2. Quantum Mechanics

Quantum State Transitions:

• The concept of quantum harmonic resonance aligns with the principles of quantum mechanics, explaining the alignment and stabilization of quantum states.
• This incorporates quantum state transitions in Off-On universes, where fluctuations create unique quantum phenomena.

Numerical Energy and Attraction:

• Numerical energy and numerical attraction govern the behavior of quantum particles, influencing their interactions and stability.
• These concepts are integrated into calculation, ensuring consistency with the probabilistic nature of quantum mechanics.

3. Cosmo Numerical Dynamics

Numerical Mass, Energy, and Attraction:

• This calculation leverages numerical mass, energy, and attraction to explain the emergence of fundamental forces.
• These concepts provide a unified framework for understanding the behavior of particles and structures across different scales.

Quantum Resonating:

• Quantum resonating, derived from harmonic resonance, is introduced as a force influencing quantum states.
• This concept is consistent with CND bridging the gap between quantum mechanics and general relativity.

Mathematical Representation

1. General Relativity and Numerical Mass:

2. Quantum Mechanics and Harmonic Resonance:

3. Numerical Attraction Force: