Apparent Sphericality in Binary Planar Cosmology
MBI-TR-01 · Rev. A
Magnetogravitic Field Equilibrium and Boundary Occlusion in the Binary Flat Earth Model
Abstract (excerpt)
The Binary Flat Earth Model proposes a binary planar cosmological system in which the observable terrestrial surface, designated the Primary Plane, is opposed by an inferred Counterplane across a magnetogravitic field-interaction zone. When considered as a coupled system, the paired firmaments would generate an Apparent Spherical Envelope: a sphere-like observational silhouette interpreted here as distinct from a continuous spherical terrestrial mass.
MBI-TN-06 series notes further model the Equilibrium Void as an anisotropic interfacial zone containing Janus-type particulate behaviour: boundary particles with opposed surface properties, one face coupled to the Primary Plane and one face coupled to the Counterplane. The term is borrowed from established colloid science, where Janus particles designate particles with two chemically or physically distinct faces.
The model does not reject sphericality as an observed condition. It reclassifies sphericality as an envelope phenomenon rather than a structural property within this hypothesis. The unresolved question is not the observation of sphericality, but whether the spherical envelope corresponds to a spherical terrestrial body.
Sections 13
Figures 10
Companion notes 6
Status Preliminary
Distribution Open dossier
Meridian Boundary Institute. Apparent Sphericality in Binary Planar Cosmology: Magnetogravitic Field Equilibrium and Boundary Occlusion in the Binary Flat Earth Model. Technical Report MBI-TR-01, Department of Planar Systems Modelling. No DOI or external institutional affiliation is assigned in this draft.