Math and Physics

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The concepts that the page links take one to below might prove engaging for those interested in the code’s geometric foundations, or how well these model nature. The code’s simple abstract essence may also have appeal for philosophers, while artists might appreciate how the code essentially presents a 3- or 4-dimensional picture frame of the natural and manmade worlds.

Math (geometry)

Hopefully, the section titles are sufficiently descriptive to direct one to one’s interest. They are: Rational Accretion, The Bode, Pattern Attributes, and Indefinite Accretion (of spheres) of the Code Orientation page: Alternate Accretion and Celestial Co-cubes of the Cube-based Abodes page; Bodal Wheel and Asymmetric Solutions of the Rolling Transport page; Linking Abstractions of the Polytechnic Integration page; Dueling Grids and Bodal Prism of the Ground Design page; Path, Non-rolling Transporters, and Bodal Turbines of the Wheel Extrapolations page; and Foundation Pads, Code-consistent Structures, Code Towers, and Electrodynamic Cuboda of  the Extra-topographic Guidelines page.


Physics students and professionals might be interested in how textbook basics are applied in the Bodal Wheel and Asymmetric Solutions sections of Rolling Transport; the Linking Abstractions, Vector Re-orientations, and Universal Linking sections of Polytechnic Integration; or the Path, Non-rolling Transporters, Bodal Turbines, and Disc Orientation sections of Wheel Extrapolations.

How the code addresses electromagnetism and gravitation is highly speculative. To see if you will find the approach reasonable, check out the intros to such in the Electrodynamic Cuboda and Wholistic Rocketry sections of Extra-Topographic Guidelines.