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 different dimensions. - => Conference Talk - Another Conference [Detailed Presentation]
... e Universe in 1929. Nevertheless, in 1998, after the discovery of the accelerating Universe from distant Type Ia supernovae, in addition to the data from the cosmic microwave background and large galaxy redshift surveys, astronomers were able to measure the evolution of the expansion rate ...
... lems of Dark Matter and Cosmological Constant . As we have introduced in section 6.5, observations of distant Type Ia supernovae, and the data from the cosmic microwave background (CMB) and large galaxy redshift surveys, all show that the expansion rate of the Universe has been acceleratin ...
... t of inflationary cosmology. 3.6.5 Accelerating Universe In 1998, from the observations of distant Type Ia supernovae, in addition to the data from the cosmic microwave background and large galaxy redshift surveys, the expansion rate of the Universe was found to be accelerating. Acco ...
... of the Universe in 1929. However, in 1998, after the discovery of the accelerating Universe from distant Type Ia supernovae, in addition to the data from the cosmic microwave background and large galaxy redshift surveys, astronomers were able to measure the evolution of the expansion rate ...
... onstantly fluctuating. 3.9.20 Dark Energy As we have introduced in section 6.5, observations of distant Type Ia supernovae, and the data from the cosmic microwave background (CMB) and large galaxy redshift surveys, all show that the expansion rate of the Universe has been acceleratin ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... s. If glueballs exist, they are massive, which is why a mass gap is expected. As we noted in section 9.13, the solution to this problem is in the duality nature of time which stems from the SINGLE MONAD MODEL . In the resulting dynamic creation of space, the geometrical points which are the ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... Is the present moment physically distinct from the past and future, or is it merely an emergent property of consciousness? The concept of time is the most fundamental problem in physics and cosmology, and the current theories do not provide any detailed explanation of the the nature of tim ...
... he universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... kind recognized that the theory could be given a description in space and time in terms of strings. The scattering amplitudes were derived systematically from the action principle, giving a space-time picture to the vertex operators. In 1971, Pierre Ramond (b. 1943) added fermions to the m ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
... but detailed physical and mathematical picture of quantum space-time. 3.9 Major Unsolved Problems In 1900, in the same year when quantum physics was born, and just a few years before SPECIAL RELATIVITY , physicist Lord Kelvin declared: “There is nothing new to discover in physi ...
... . In Strings Theory, one must typically specify a fixed reference geometry for space-time, and all other possible geometries are described as perturbations of this fixed one. This is unlike GENERAL RELATIVITY which is background independent because does not privilege any particular space-t ...
... posed a problem for theorists because it suggested that black holes destroy information. More precisely, Hawking’s calculation seemed to conflict with one of the basic postulates of quantum mechanics, which states that physical systems evolve in time according to the Schroedinger e ...
... major advance in physicists’ understanding of Strings Theory and Quantum Gravity. One reason for this is that the correspondence provides a formulation of Strings Theory in terms of QUANTUM FIELD THEORY , which is well understood by comparison. Another reason is that it provides a g ...
... of Time Theory, because space and matter are perpetually being re-created in the inner levels of time, non-local motion, and not only transfer of information, can occur without breaking the speed of light limit, as we shall explain in chapters V and VI. 3.9.4 Physical Information Doe ...
... m the action principle, giving a space-time picture to the vertex operators. In 1971, Pierre Ramond (b. 1943) added fermions to the model, which led him to formulate a two-dimensional super-symmetry to cancel the wrong-sign states. In the fermion theories, the critical dimension was 10, bu ...
... istory of the universe or in black holes. That is why quintessence models would be promising in this regard, since they are formulated on scalar fields with time-dependent equation of state, ...
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.
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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 .....>>>>