Multi-Creation Process: 1. On-Off (The Antiverse) 2. On-On (Active Universe) 3. Off-On (Quantum State Transition Universe) Hypothetical Calculation Example Step-by-Step Process \ \ \ The multi-creation process with On-Off,…
Integrating Numerical Mass and Numerical Energy into the Universe substructure
1. Underlying Substructure Numerical Mass and Energy: 2. Numerical Sequences and Numerical Attraction Numerical Sequences: Numerical Attraction: Hypothetical Calculation Example Unveiling the Numerical Secrets of the Universe Cosmo Numerical Dynamics reveals the fundamental substructure of all particles and fields through numerical mass, numerical energy, and numerical sequences. By understanding how these numerical values and attractions…
Understanding the Standard Model of Particle Physics
The Standard Model is a well-established theory that describes three of the four known fundamental forces (electromagnetic, weak, and strong interactions) and classifies all known elementary particles12. It consists of two main types of particles: fermions and bosons. Integrating CND Theory with the Standard Model CND theory introduces numerical properties (numerical mass and numerical energy)…
And it starts with Quan.
Cosmo Numerical Dynamics (CND) theory proposes that quantum particles have underlying numerical properties—numerical mass and numerical energy—essentially attributing quantifiable values that govern their behavior and interactions. In essence, these numerical properties could act as foundational parameters that influence the excitation and manipulation of quantum particles, leading to the complex processes that give rise to the…
CND Theory has the potential to create a more cohesive framework that bridges the gap between general relativity and quantum theory
Integrating General Relativity and Quantum Theory 1. Unified Framework 2. Key Concepts in Cosmo Numerical Dynamics 3. Potential Applications Cosmo Numerical Dynamics offers a promising approach to bridging the gap between general relativity and quantum theory. By leveraging harmonic resonance, quantum state transitions, and numerical sequences, it creates a unified framework that can describe phenomena…
Theoretical Enhancement of Light Absorption Using Anti‑Light Properties
Introduction The idea of surpassing the current absorption rate of light by incorporating anti‑light and anti‑light spectrum equations. Part I: Theoretical Approach Using Anti‑Light Spectrum Equations 1. Absorption Mechanisms 2. Anti‑Light Concept 3. Nonlinear Absorption 4. Raman Scattering 5. Theoretical Models Summary of Part I While the concept is highly theoretical and would require significant…
Mathematical Representation of Darker Materials
Part 1: Hypothesizing a Darker Material Step 1: Mathematical Representation of Vantablack Vantablack is known for its extreme light absorption properties, absorbing 99.965% of visible light¹. Let’s denote the light absorption capacity of Vantablack as AVBA_{VB}: AVB=0.99965A_{VB} = 0.99965 Step 2: Hypothetical Darker Material To hypothesize a material darker than Vantablack, we need to consider…
The Theoretical, Part 1
Applying the concept of Cosmo Numerical Dynamics to current theoretical issues could potentially offer new perspectives and solutions to problems that are currently unexplainable or incalculable. Some Key Contributions of CND By leveraging the principles of CND, it may be possible to bridge gaps between existing theories and uncover new pathways to understanding complex and…