Thus ones line of sight is really pointing at nothing, and their eyes are receiving an image of something that is at a position in the sky elsewhere to the direction they are truly looking.
As such when we believe we are looking at a luminous astrological object perpendicular to our line of sight, what we are seeing actually lies on the other end of a bent ray of light. Hence the name Geocosmos as in this model the Earth is the boundary of the cosmos)Ībdelkader devised an equation that suggests the phenomena belonging to the perception of the sky-dome and horizon line, are subject to optical illusion, supporting his statement that Light bends in wide arcs through space, rather than travelling in straight paths. (for those FES forum explorers who are limited in English terminology, “Geology” is the study of the shape of the Earth, its properties and in some sense its relation to the rest of the cosmos. Therefore an observer on the surface will experience night without a luminous sky, even though rays of light are actually traversing the space they look out into, this being because the rays are only in space and thus are never received directly into the eye. Therefore the light which circles round to the opposite side of the heavens, never meets the sight of those who have the centre of the cosmos between them and the sun.
Thus as they converge toward the opposite position of the heavens to where the sun is, they are simultaneously pulled in toward the centre. However they never illuminate the other side of the earth or its night sky because the wavelengths of light flow in accordance with the volume of space beyond the earth's surface, and are also subject to the black-hole like inertia of the cosmoses infinitesimal centre. The arcs of light which travel toward the surface of the earth are absorbed, and those that are not continue travelling toward the centre of the cosmos as well as around it to the opposite side of the heavens than the sun. The main addition to Neupert's concept which Abdelkader addressed, is that light is eventually pulled toward the centre of the cosmos which shrinks inward. We next consider the hypothesis that, conversely, our actual universe is this finite G." (This idea entails the inversion of all known geo/astro physics.) Straight rays of light are mapped as arcs of circles, so that all celestial phenomena appear to inside observers in G just as they do to outside observers in C. “The enormous galaxies and other remote objects are mapped inside as microscopic objects, and our moon as by far the largest of the celestial objects, all of which revolve daily around the earth's axis.
In his paper that he submitted to the Australian science journal Speculations in Science and Technology, in 1981 (which then gave a serious peer review of his full hypothesis in its 6th volume edition published in 1983), Abdelkader says: Unlike Cyrus' model which considers the heavenly bodies entirely as optical illusions, Neupert's model inverts the entire known cosmos into the concave model, stating that space shrinks / implodes via non-euclidean geometry, so as to fit an entire Copernican cosmos (C) into the comparatively finite boundary-envelope of the Geocosmos' (G) concave surface. In 1981 Mostafa Abdelkader an Egyptian mathematician from Alexandria, revived and expanded upon Karl E Neupert's Geocosmos version of Cyrus' Ideas, from the year 1900.