This is version 1. 0. 0 of the dataset and code accompanying the paper: "Twin Prime Residue Classes Modulo 210: Experimental Evidence for Hardy–Littlewood Equidistribution" This release includes all materials necessary to understand and reproduce the analysis: 📁 data/ - Counts for each admissible residue class (classes₂10. csv) 📁 figures/ - Visualizations generated from the analysis - deviations₂10. png: Bar plot of percentage deviations from 1/15 - classes₂10circular. png: Circular distribution of the 15 admissible classes📁 latex/ - LaTeX source files for the paper - paper2. tex: Main LaTeX document - references. bib: Bibliography📄 paper2. pdf - Final PDF version of the article📄 README. md - Documentation and instructions📄 requirements. txt - Python dependencies The analysis confirms that twin primes are uniformly distributed among the 15 admissible residue classes modulo 210: - Total pairs analyzed: 3, 424, 504 (p > 7) - Expected frequency per class: 1/15 ≈ 0. 06667- Observed χ² = 2. 30 with 14 degrees of freedom- Maximum deviation: only 0. 18% from the expected value This is a direct continuation of our previous work: Morales Córdoba, V. E. (2026). Digit Transitions of Twin Primes in Bases 6, 12, 18, 30, and 10: An Experimental Study. Zenodo. https: //doi. org/10. 5281/zenodo. 18912775 For citation, please use the DOI that will be assigned to this record.
Victor Eduardo Morales Cordoba (Fri,) studied this question.
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