The Duality of Time Theory, that results from the Single Monad Model of the Cosmos, explains how physical multiplicity is emerging from absolute (metaphysical) Oneness, at every instance of our normal time! This leads to the Ultimate Symmetry of space and its dynamic formation and breaking into the physical and psychical (supersymmetrical) creations, in orthogonal time directions. General Relativity and Quantum Mechanics are complementary consequences of the Duality of Time Theory, and all the fundamental interactions become properties of the new granular complex-time geometry, at diifferent dimensions. - => Conference Talk [Detailed Presentation]
... d ) complex-time space, which is absolutely Euclidean , and which approximates to the non-euclidean space when we suppose the background to be continuously existing with real physical dimens ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... and even infinitesimal calculus and other types of analysis, are efficiently performed in euclidean space for all practical purposes in all fields of applied mathematics, including thermal ( ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... is own absolute oneness that corresponds to one single mathematical point in the infinite euclidean space of Ultimate Symmetry. Since the Constant Entities are never described collectively b ...
... ll define a new discrete symmetry that allows expressing the (deceitfully continuous) non-euclidean space-time in terms of its granular Euclidean complex-time space, whose granularity is exp ...
... ynamically connected with hyperbolic relation that produces a granular and self-contained euclidean space-time, without invoking Riemannian geometry. This complex time-time geometry accordin ...
... r time is zero, this corresponds to absolute vacuum, that is an isotropic and homogeneous euclidean space, with complete integer dimensions, that is 3D in our normal perception, and it is ex ...
... genuinely-complex time-time frame will allow expressing the (deceitfully continuous) non-euclidean space-time in terms of this granular Euclidean complex-time space, whose granularity is ex ...
... e same time, as a normal complex number, (c, c) describes an isotropic infinite and inert euclidean space (without time), because its dimensions are continuous, or uninterrupted. The metaphy ...
... tation of the Lorentz transformations. Minkowski combined time with the three-dimensional euclidean space into a four-dimensional manifold, where the space-time interval between any two even ...
... r own absolute oneness that corresponds to one single mathematical point in this infinite euclidean space of the Ultimate Symmetry. Since the Constant Entities are never described collective ...
... d ) complex-time space, which is absolutely Euclidean , and which approximates to the non-euclidean space when we suppose the background to be continuously existing with real physical dimens ...
... fine a profound discrete symmetry that allows expressing the (deceitfully continuous) non-euclidean space-time in terms of its granular and fractal complex-time space, whose granularity and ...
... ans substituting a mathematical problem in Minkowski space-time into a related problem in euclidean space. Schroedinger equation and the heat equation are also related by Wick rotation. This ...
... ginary axis. However, in addition to the normal complex number plane: , that can describe euclidean space, split-complex, or hyperbolic, numbers: , are required to express the relation betwe ...
... nd any vector velocities of its constituents, thus in this case we have flat and infinite euclidean space without any motion or disturbance, which is the state of vacuum: , or , as we noted ...
... ion, which is causing the disturbance and curvature of the otherwise infinite homogeneous euclidean space that describes the vacuum state . Therefore, to obtain the relativistic energy-momen ...
... r time is zero, this corresponds to absolute vacuum, that is an isotropic and homogeneous euclidean space, with complete integer dimensions, that is in our normal perception, and it is exp ...
... ing “time-time” geometry is genuinely complex, fractal and granular, and that the non-euclidean space-time continuum is the first global approximation of this complex-time space in which ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... ary parts of the complex-time would be continuous, and this describes another homogeneous euclidean space with one higher dimension than the original (c, 0) vacuum. Actually, the hyperbolic ...
... the non-Euclidean Minkowski space-time coordinates will be a special approximation of the euclidean space coordinates , or time coordinates: where or represent the inner real part of time: , ...
... d ) complex-time space, which is absolutely Euclidean , and which approximates to the non-euclidean space when we suppose the background to be continuously existing with real physical dimens ...
... eometry that provides the smooth link between physical particles and absolute homogeneous euclidean space, via four distintive levels of symmetry, in addition to original level of absolute O ...
... the latter can only be realized in its ground bosonic state that is our usual euclidean space. This can also explain why quarks are confined and why gluons, and are m ...
... ing to the groups shown in Figure IV.9, which is based on the fact that the dimensions of euclidean space are obtained only at he speed of light, which case the outer level of time is null. ...
... ly one genuinely-complex time-time geometry, which is the same familiar three-dimensional euclidean space. As we explained in Volume II, this complex-space can be split into seven levels of ...
... lidean real space, but there have been some serious claims of quadrature over certain non-euclidean spaces, such as the hyperbolic plane, known as Bolyai-Lobachevskian geometry, but they may ...
... r time is zero, this corresponds to absolute vacuum, that is an isotropic and homogeneous euclidean space, with complete integer dimensions, that is in our normal perception. So the sp ...
... to explain how this curved (Riemannian) space is emerging from the absolutely homogeneous euclidean space of infinite number of dimensions, which is also equivalence to absolute Oneness. Thi ...
... fine a profound discrete symmetry that allows expressing the (deceitfully continuous) non-euclidean space-time in terms of its granular and fractal complex-time space, whose granularity and ...
... ans substituting a mathematical problem in Minkowski space-time into a related problem in euclidean space. Schrodinger equation and the heat equation are also related by Wick rotation. This ...
... ginary axis. However, in addition to the normal complex number plane: , that can describe euclidean space, split-complex, or hyperbolic, numbers: , are required to express the relation betwe ...
... ce of our ontic image of the flat space, that appears to be spherically symmetrical euclidean space, at every instance of time, but without time. We shall see in Chapter III that this ...
... Space Transcendence Read this short concise exploration of the Duality of Time Postulate: DoT: The Duality of Time Postulate and Its Consequences on General Relativity and Quantum Mechanics ...
... Space Transcendence Read this short concise exploration of the Duality of Time Postulate: DoT: The Duality of Time Postulate and Its Consequences on General Relativity and Quantum Mechanics ...
I have no doubt that this is the most significant discovery in the history of mathematics, physics and philosophy, ever!
By revealing the mystery of the connection between discreteness and contintuity, this novel understanding of the complex (time-time) geometry, will cause a paradigm shift in our knowledge of the fundamental nature of the cosmos and its corporeal and incorporeal structures.
Enjoy reading...
Mohamed Haj Yousef
Check this detailed video presentation on "Deriving the Principles of Special, General and Quantum Relativity Based on the Single Monad Model Cosmos and Duality of Time Theory".
Download the Book "DOT: The Duality of Time Postulate and Its Consequences on General Relativity and Quantum Mechanics" or: READ ONLINE .....>>>>