Appendix B: 1034 Cross-Scale Samples Data & Full-Scale Calculation Script (for Paper: The Kudames Framework v10.0/Core v3.2)
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| Název: | Appendix B: 1034 Cross-Scale Samples Data & Full-Scale Calculation Script (for Paper: The Kudames Framework v10.0/Core v3.2) |
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| Autoři: | Li, Shuping |
| Publication Status: | Preprint |
| Informace o vydavateli: | Zenodo, 2025. |
| Rok vydání: | 2025 |
| Témata: | frequency calculation, open-source tool, universal frequency calculation, quantum mechanics, quantum computing, quantum materials, quantum medicine, cross-scale physics, discrete spacetime, helical motion, characteristic frequency, phenomenological framework, unified physics, energy fiber network, quantum devices, superconducting materials, cosmic structure analysis, molecular frequency, atomic frequency, celestial frequency, macroscopic frequency, microcosmic frequency, open-source code, Python script, quantum-classical transition, pressure-difference gravity, Z₂ symmetry, 1/π geometric correction, critical exponent, 96u mass threshold, quantum engineering, biomolecular frequency, human body frequency, building material frequency, nanomaterial frequency, quantum technology, quantum application, cross-scale frequency |
| Popis: | Brief Introduction This appendix provides open-source calculation code with the paper《 The Kudames Framework: A Unified Phenomenological Framework Based on Discrete Spacetime and Helical Motion (Kudames v10.0 / Core v3.2)》(https://zenodo.org/records/17555698). It aims to offer readers an efficient and convenient rapid calculation tool for cross-scale characteristic frequencies. The code strictly adheres to the core theoretical framework of the paper (v3.2 version) and fully reproduces the cross-region characteristic frequency calculation formulas and key parameters in Section 4.2 (critical exponent k=(1/2)\log_3 2, 1/π geometric correction factor, 96 u mass threshold, topological correction factor Γ, etc.). It supports full-scale calculation scenarios ranging from microcosmic atoms, macromolecules (including DNA) to macroscopic building materials, human bodies, and celestial bodies. The key features of the code are as follows: 1. Strong Compatibility: Supports input of two mass units ("u" and "kg"), automatically completing unit conversion and scale region judgment (microcosmic/macroscopic/celestial); 2. Easy Operation: No need to manually distinguish light nuclei from heavy nuclei. Only the equivalent atomic number (Z_eq), system mass, and structure type need to be input to quickly output the characteristic frequency; 3. Intuitive Results: While returning the calculation results, it labels the applied formula and the corresponding scale region, facilitating verification against the paper; 4. Open-Source and Reusable: The code is detailed with comments and includes verification cases of 5 typical samples (atoms, DNA, building materials, human bodies, celestial bodies). Readers can directly modify parameters to calculate target systems. 附录 B 开源计算代码(快速计算工具) 简介 本附录为论文《The Kudames Framework: A Unified Phenomenological Framework Based on Discrete Spacetime and Helical Motion (Kudames v10.0 / Core v3.2)》(https://zenodo.org/records/17555698)配套开源计算代码,旨在为读者提供高效、便捷的跨尺度特征频率快速计算工具。 代码严格遵循论文核心理论框架(v3.2 版本),完全复现 4.2 节跨区域特征频率计算公式及关键参数(临界指数k=(1/2)\log_3 2、1/π 几何修正因子、96u 质量阈值、拓扑修正因子 Γ 等),支持从微观原子、大分子(含 DNA)到宏观建筑材料、人体、天体的全尺度场景计算。 代码特性如下: 1. 兼容性强:支持 “u”“kg” 双质量单位输入,自动完成单位转换与尺度区域判断(微观 / 宏观 / 天体); 2. 操作简便:无需手动拆分轻核 / 重核,仅需输入等效原子序数(Z_eq)、系统质量及结构类型,即可快速输出特征频率; 3. 结果直观:返回计算结果的同时,标注所用公式及所属尺度区域,便于对照论文验证; 4. 开源可复用:代码注释详尽,包含 5 类典型样本(原子、DNA、建筑材料、人体、天体)的验证案例,读者可直接修改参数计算目标体系。 |
| DOI: | 10.5281/zenodo.17562118 |
| Rights: | CC BY |
| Přístupové číslo: | edsair.doi...........a43ff8626f2e4e19be691e7d0f0bbdfb |
| Databáze: | OpenAIRE |
Nájsť tento článok vo Web of Science | Abstrakt: | Brief Introduction This appendix provides open-source calculation code with the paper《 The Kudames Framework: A Unified Phenomenological Framework Based on Discrete Spacetime and Helical Motion (Kudames v10.0 / Core v3.2)》(https://zenodo.org/records/17555698). It aims to offer readers an efficient and convenient rapid calculation tool for cross-scale characteristic frequencies. The code strictly adheres to the core theoretical framework of the paper (v3.2 version) and fully reproduces the cross-region characteristic frequency calculation formulas and key parameters in Section 4.2 (critical exponent k=(1/2)\log_3 2, 1/π geometric correction factor, 96 u mass threshold, topological correction factor Γ, etc.). It supports full-scale calculation scenarios ranging from microcosmic atoms, macromolecules (including DNA) to macroscopic building materials, human bodies, and celestial bodies. The key features of the code are as follows: 1. Strong Compatibility: Supports input of two mass units ("u" and "kg"), automatically completing unit conversion and scale region judgment (microcosmic/macroscopic/celestial); 2. Easy Operation: No need to manually distinguish light nuclei from heavy nuclei. Only the equivalent atomic number (Z_eq), system mass, and structure type need to be input to quickly output the characteristic frequency; 3. Intuitive Results: While returning the calculation results, it labels the applied formula and the corresponding scale region, facilitating verification against the paper; 4. Open-Source and Reusable: The code is detailed with comments and includes verification cases of 5 typical samples (atoms, DNA, building materials, human bodies, celestial bodies). Readers can directly modify parameters to calculate target systems.<br />附录 B 开源计算代码(快速计算工具) 简介 本附录为论文《The Kudames Framework: A Unified Phenomenological Framework Based on Discrete Spacetime and Helical Motion (Kudames v10.0 / Core v3.2)》(https://zenodo.org/records/17555698)配套开源计算代码,旨在为读者提供高效、便捷的跨尺度特征频率快速计算工具。 代码严格遵循论文核心理论框架(v3.2 版本),完全复现 4.2 节跨区域特征频率计算公式及关键参数(临界指数k=(1/2)\log_3 2、1/π 几何修正因子、96u 质量阈值、拓扑修正因子 Γ 等),支持从微观原子、大分子(含 DNA)到宏观建筑材料、人体、天体的全尺度场景计算。 代码特性如下: 1. 兼容性强:支持 “u”“kg” 双质量单位输入,自动完成单位转换与尺度区域判断(微观 / 宏观 / 天体); 2. 操作简便:无需手动拆分轻核 / 重核,仅需输入等效原子序数(Z_eq)、系统质量及结构类型,即可快速输出特征频率; 3. 结果直观:返回计算结果的同时,标注所用公式及所属尺度区域,便于对照论文验证; 4. 开源可复用:代码注释详尽,包含 5 类典型样本(原子、DNA、建筑材料、人体、天体)的验证案例,读者可直接修改参数计算目标体系。 |
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| DOI: | 10.5281/zenodo.17562118 |