Welcome to the repository where theoretical physics meets rigorous scrutiny! This project delves into the fascinating realm of the Super Force theory, a conceptual framework that seeks to unify the fundamental forces of nature at the Planck scale.
The Super Force theory posits a unified field at the Planck scale, where the strong nuclear force and gravity could be aspects of a single fundamental force. Our dimensional analysis is a pivotal step in assessing the plausibility of such a theory, laying the groundwork for potential empirical validation.
Super_Force_Analysis.py
: A Jupyter notebook containing the detailed dimensional analysis of the Super Force theory's equations.Dimensional_Analysis_Results.md
: A markdown file summarizing the dimensional analysis results.Experimental_Designs.md
: A directory proposing experimental setups and simulations for empirical testing.Literature_Review.md
: A collection of scientific papers and articles relevant to the Super Force theory and dimensional analysis.
- Consistency with Force Dimensions: Our analysis confirms that the Super Force theory's equations are dimensionally consistent with the known dimensions of force.
- Unified Approach: The Super Force and Strong Nuclear Force share a dimensional framework, suggesting a possible unification.
- Planck Scale Resonance: The dimensions of the Electromagnetic and Gravitational Forces align with established principles at the Planck scale.
We're on the lookout for theoretical physicists, mathematicians, and simulation experts to contribute to this exploratory project. Whether it's refining the analysis, proposing experimental designs, or enhancing our simulations, your expertise can help propel this theory from the realm of speculation to empirical inquiry.
To get started with the analysis:
- Clone the repository.
- Navigate to the
Super_Force_Analysis.ipynb
notebook. - Run the notebook cells to reproduce the dimensional analysis.
Join the discussion in the Issues
section or propose changes via Pull Requests
. Let's collaborate to explore the boundaries of known physics and possibly uncover new facets of our universe.
We welcome contributions from anyone interested in advancing the study of the Super Force and its applications. If you would like to contribute, please follow these guidelines:
Fork the Repository: Start by forking the repository and making your changes. Once you have made your contributions, submit a pull request. Discuss Changes: If you have ideas for how to improve the project or want to discuss potential changes, please open an issue to start a conversation with the community. Code Standards: Ensure that any code contributions adhere to the existing style and quality standards of the project. This helps maintain the integrity and readability of the codebase. Documentation: If you add new features or make changes that affect how users interact with the project, please update the documentation accordingly. Testing: We appreciate contributions that include tests for new features or bug fixes. This ensures that the project remains stable and reliable. Be Respectful: We strive to create a welcoming and inclusive community. Please be respectful and considerate in your interactions with other contributors. Your contributions are what make the open-source community such a powerful platform for innovation and collaboration. We look forward to seeing your ideas and work! ...
We would like to express our deepest appreciation to Curt Jaimungal of the Theory of Everything (TOE) for his invaluable discussions and insights that greatly enhanced the quality of our work. His contributions to the field and dedication to spreading knowledge have been a source of inspiration. Special thanks to Salvatore Pais for his pioneering work and the development of his theory, which has been a cornerstone in our exploration of the Super Force and its implications. His innovative approach and dedication to advancing the frontiers of science have paved the way for new discoveries and understanding. We are also grateful to the open-source community for their collaborative spirit and commitment to sharing knowledge freely. Their contributions have made this project possible, and we hope to continue fostering an environment of open exchange and innovation. This project stands on the shoulders of giants, and it is through the collective efforts of many that we are able to push the boundaries of what is possible. Thank you to everyone who has played a part in this journey.
This project is licensed under the GNU General Public License v3.0 - see the LICENSE.md file for details. This ensures that all derivatives of this work will also be completely open source.
This README now reflects a commitment to open-source principles under the GNU license and acknowledges the contributions of Curt Jaimungal and Salvatore Pais. If there are any more adjustments or additions you'd like to make, please email me at [email protected]