Dark Matter

Science in the modern era is a phenomenological endeavor. Experiments are done, data is collected, and theories are analyzed with uncertainties that correlate to physical models. However important this progression of science is, there should be room for the emergent field of ontology -- the focus on the relationship of the observer in the system. To make it simple, there should be an anthropic principle that guides the secular foundation of observation and interaction based quantum mechanics and general relativity. Of course, the measurements of relativity depend on reference frames and this emerges into the affine topological Weyl space as opposed to the Riemann metric. Better, topology rather than Pythagorean coordinate connections must be understood. Indeed this is the generating force behind the Platonic solids, shapes created from pure logical causation. Let's transition slightly to dark matter, which should be viewed from the epi-phenomenological lens. Here rotating particles frame drag and create the pull on space that gravito-magnetism engenders. It is like the particles are surrounded by a glob of honey, moving with the rotation of the particle. Dark matter is likely the non-linear effect of general relativity and the conservation of mass density resulting from shifting reference frames in relativity. With the cosmic masses and incredible speeds of galactic nebulae, it is probable that the calculations will bear fruit. At least the calculations must be done. General Physics has experience in orbital mechanics and for the future, mankind will need better descriptions of the motion of planetary bodies and clouds to accurately probe these spaces. If man is destined for the stars, then General Physics modeling dark matter as gravito-magnetism will lead the charge of a grand unified theory and real progress.