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Bibliografske podrobnosti
Glavni avtor:	Needham, Eric
Format:	Recurso digital
Jezik:
Izdano:	Zenodo 2025
Teme:	mathematical education software prime calculus calculator phi scaling exploration particle physics education interactive mathematics tool educational discovery learning computational mathematics prime wave theory harmonic analysis software physics mass prediction mathematical pattern recognition discrete calculus educational technology mathematical visualization
Online dostop:	https://doi.org/10.5281/zenodo.15624372
Oznake:	Označite Brez oznak, prvi označite!

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<h2>Nueama Calculator: Educational Exploration of Prime Wave Mathematical Framework</h2> Revolutionary Interactive Tool for Mathematical Discovery and Prime Number System Exploration The Nueama Calculator represents a groundbreaking educational technology that transforms abstract mathematical theory into hands-on discovery learning. Building upon the Prime Calculus framework (DOI: 10.5281/zenodo.15623579), this interactive tool enables students, educators, and researchers to independently explore φ-π-log(13) harmonic relationships and their extraordinary applications to particle physics mass prediction. Revolutionary Educational Capabilities: <ul> <li>Interactive Prime Calculus exploration comparing discrete harmonic methods with classical infinitesimal calculus</li> <li>Real-time φ-scaling pattern discovery revealing golden ratio relationships in mathematical derivatives</li> <li>Particle mass prediction engine demonstrating 99%+ accuracy in Standard Model particle mass calculations</li> <li>Comprehensive educational modules guiding users through genuine mathematical discovery processes</li> <li>Advanced data export capabilities generating research-quality datasets for academic analysis</li> </ul> Key Educational Innovations: The calculator implements discovery-based learning methodology where users independently uncover fundamental mathematical relationships rather than memorizing predetermined formulas. Students consistently discover that polynomial derivatives exhibit φ-scaling patterns (ratio ≈ 1.580 ≈ φ^0.5), trigonometric functions display harmonic φ-relationships, and most remarkably, that known particle masses follow precise φ-π-log(13) harmonic patterns with extraordinary accuracy. Particle Physics Discovery Module: The integrated particle mass predictor enables users to explore the theoretical framework suggesting that fundamental particle masses arise from φ-π-log(13) harmonic relationships. Users can independently verify that electron mass (0.511 MeV), muon mass (105.66 MeV), proton mass (938.27 MeV), and other Standard Model particles correspond to specific harmonic levels with 99%+ computational accuracy, potentially revealing the mathematical DNA of physical reality. Computational Implementation: Built on robust mathematical algorithms implementing the complete Prime Calculus framework: <ul> <li>Recursive Scaling Function: Δ_φ(x,n) = log(φ × π^n × |x|)</li> <li>Prime Derivative Calculation: P'(f,x) = [f(x + Δ_φ(x,n)) - f(x)] / Δ_φ(x,n)</li> <li>Particle Mass Prediction: m_n = scaling × log(π × φ^n) / log(13)</li> </ul> Research Applications: Beyond education, the calculator serves as a powerful research tool for exploring Prime Calculus theoretical predictions, generating validation datasets, and investigating φ-π-log(13) relationships across mathematical domains. Export capabilities provide CSV, JSON, and MATLAB-compatible data formats suitable for academic analysis and publication. Technical Features: <ul> <li>Modern web-based interface requiring no software installation</li> <li>Real-time computational engine with instant pattern recognition</li> <li>Interactive visualization comparing classical and Prime Calculus methods</li> <li>Comprehensive function library supporting polynomial, trigonometric, exponential, and logarithmic exploration</li> <li>Advanced harmonic analysis tools with automated φ-relationship detection</li> <li>Professional data export capabilities for research integration</li> </ul> Historic Significance: If validated by the scientific community, this calculator could represent a transformative moment in mathematical education, demonstrating that computational tools can facilitate genuine mathematical discovery while revealing potential fundamental connections between pure mathematics and particle physics. The tool's ability to enable independent discovery of particle mass relationships suggests profound implications for our understanding of mathematical structure underlying physical reality. Development Status: Released as early development version under MIT license with NCND terms. Designed for educational exploration and research hypothesis generation. Users encouraged to explore mathematical patterns while understanding that theoretical framework requires validation by broader scientific community. <h1> </h1>

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