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https://github.com/gatanegro/astro--com

Astronomy in COM ( Collatz octave sequence Model) and UOFT theory framework
https://github.com/gatanegro/astro--com

astrophysics-research blackholes collatz cosmology framework galaxy hqs i3atlas jwst lz novel physics quantum redshift research solar system telescope trappist-1 uoft

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Astronomy in COM ( Collatz octave sequence Model) and UOFT theory framework

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README 

          
[![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.15289101.svg)](https://doi.org/10.5281/zenodo.15289101)



This study expands the Collatz-Octave Model (COM) by incorporating the HQS (23.5\%) and LZ (1.23498) constants from Unified Oscillatory Dynamic Field Theory (UODFT). We demonstrate that these quantum-derived scaling factors precisely govern planetary distances, masses, and orbital velocities when integrated with COM's octave structuring. 



Our analysis reveals that the Solar System's architecture emerges from a harmonic resonance pattern matching atomic energy scaling, with relativistic corrections accounting for residual deviations. The modified COM framework shows remarkable alignment with both Solar System and exoplanetary data, suggesting a universal oscillatory basis for celestial mechanics.



# Logos_Astro_Xl_app - Advanced Planetary Predictor- Planetary Spacing



A sophisticated graphical application built with Python and Tkinter that predicts potential planetary orbits in exoplanetary systems using a novel mathematical resonance model based on the LZ and HQS constants.



## Features



*   **Multi-System Analysis**: Pre-loaded with parameters for 14 known exoplanetary systems (Trappist-1, Solar System, Kepler-90, etc.) and a custom system builder.

*   **Tunable Constants**: Test predictions against seven different progressively accurate sets of the LZ and HQS constants (`LZ_1` to `LZ_s`, `LZ`).

*   **Custom Resonance Models**: Choose from five different mathematical functions (sin, tanh, exp, gaussian, lorentzian) to model orbital resonance.

*   **Interactive Visualization**: Dynamically generated plots showing resonance strength, predicted vs. observed orbits, and constants comparison.

*   **Comparative Analysis**: Run a batch analysis to compare the predictive power of all constant sets simultaneously.

*   **Data Export**: Export all calculated resonance data to CSV, JSON, or Excel format for further analysis.

*   **Fractal Analysis**: Includes a preliminary module for analyzing the fractal properties of the resonance patterns.



Predicting JWST Anomalies



Proposed JWST Observing Programs



https://github.com/gatanegro/Astro--COM/releases



## 📢 Join the Community!



Discussion, questions, and collaboration for this project are hosted in our central community repo:  

👉 [gatanegro/community](https://github.com/gatanegro/community/discussions)



- Share discoveries, suggestions, and ideas.

- Ask questions about the research.

- Fork this repo to continue your own work—direct changes are not permitted.



**You must have a GitHub account to participate in discussions.**



## Research & Contribution Policy



This repository contains original research, mathematics, and unconventional approaches.  

**Please do not submit pull requests or issues requesting changes.**  

If you wish to pursue related research, fork this repository and continue independently.



> Note: Apparent errors or unconventional methods are intentional and part of new theoretical work.