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]
Ibn al-Arabi's Concept of Time and Creation
Regarding the question of 'instants' of time, time being a linear continuum implies that there is a nondenumerable infinity of them. This means that between any two instants there is a third; time is continuous. However, for times shorter than about 10-43 seconds; the so-called Planck time, science has no experimental support that time holds its continuousness. But physicists agree that General Relativity must fail for durations shorter than the Planck time,[26] though they don't know exactly how and what is the substitute.
The idea that space or time (spacetime) could be discrete has been recurring in scientific literature recently, but its origins go back to ancient philosophies. The new concepts brought about by Quantum Mechanics (e.g., the concept of indeterminacy or the uncertainty principle) suggested that spacetime could be also quantized like energy. This was reinforced by the discovery of ultraviolet divergences in Quantum Field Theory (Zee 2003: 145-51), though many of the strange quantum concepts soon became acceptable aspects of continuum physics. In the 1980s, powerful computers inspired some new discrete thinking in physics. Complicated mathematical simulations performed on these super-computers paved the way for Lattice Theories to be applied to Quantum Mechanics, and included Quantum Gravity. In Quantum Gravity, Planck's length is a minimum size beyond which no accurate measurements can be performed.
Hawking, however, sees no reason to abandon the continuum theories that have been so successful. But it may be possible to invent a discrete structure of spacetime without abandoning the continuum theories if the discrete-continuum duality can be resolved, just as the wave-particle duality has been resolved by Quantum Mechanics.[27]
The practical methods of the quantisation of time in modern scientific theories are based on some complicated mathematics such as lattice theories and cellular automata that are beyond the scope of this introduction (Wolfram 2002: 771). But it is good to note here that Ibn Arabi's quantisation of time, as we shall see in section II.8, is unique and is based on a broader cosmological view (of the oneness of being) such that discreteness and continuousness are special cases of it (see also section VII.5).
... 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 ...
... recurring in scientific literature recently, but its origins go back to ancient philosophies. The new concepts brought about by Quantum Mechanics (e.g., the concept of indeterminacy or the UNCERTAINTY PRINCIPLE ) suggested that spacetime could be also quantized like energy. This was reinfo ...
... don't know exactly how and what is the substitute. The idea that space or time (spacetime) could be discrete has been recurring in scientific literature recently, but its origins go back to ANCIENT PHILOSOPHIES . The new concepts brought about by Quantum Mechanics (e.g., the concept of inde ...
... Arabi's quantisation of time, as we shall see in section II.8, is unique and is based on a broader cosmological view (of the oneness of being) such that discreteness and continuousness are SPECIAL CASE s of it (see also section VII.5). Read Other Books: The Single Monad Model ...
... if the discrete-continuum duality can be resolved, just as the wave-particle duality has been resolved by Quantum Mechanics.[27] The practical methods of the quantisation of time in modern SCIENTIFIC THEORIES are based on some complicated mathematics such as lattice theories and cellular ...
... e beyond which no accurate measurements can be performed. Hawking, however, sees no reason to abandon the continuum theories that have been so successful. But it may be possible to invent a DISCRETE STRUCTURE of spacetime without abandoning the continuum theories if the discrete-continuum ...
... Arabi's quantisation of time, as we shall see in section II.8, is unique and is based on a broader cosmological view (of the oneness of being) such that discreteness and continuousness are SPECIAL CASES of it (see also section VII.5). Read Other Books: The Single Monad Model ...
... d the scope of this introduction (Wolfram 2002: 771). But it is good to note here that Ibn Arabi's quantisation of time, as we shall see in section II.8, is unique and is based on a broader COSMOLOGICAL VIEW (of the oneness of being) such that discreteness and continuousness are special ca ...
... Consequences on General Relativity and Quantum Mechanics ...
... 3: 145-51), though many of the strange quantum concepts soon became acceptable aspects of continuum physics. In the 1980s, powerful computers inspired some new discrete thinking in physics. Complicated mathematical simulations performed on these super-computers paved the way for Lattice Th ...
... successful. But it may be possible to invent a discrete structure of spacetime without abandoning the continuum theories if the discrete-continuum duality can be resolved, just as the wave- PARTICLE DUALITY has been resolved by Quantum Mechanics.[27] The practical methods of the quantisati ...
... heories if the discrete-continuum duality can be resolved, just as the wave-particle duality has been resolved by Quantum Mechanics.[27] The practical methods of the quantisation of time in MODERN SCIENTIFIC theories are based on some complicated mathematics such as lattice theories and ce ...
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".
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