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]
Complex-Time Geometry and Perpetual Creation of Space
Gottfried Leibniz (1646-1716 AD) was a prominent German philosopher and mathematician. He developed differential and integral calculus independently of Newton. Along with Descartes and Spinoza (1632-1677 AD), Leibniz was one of the advocates of rationalism, and he contributed to modern logic and analytic philosophy. However, his best distinguished contribution to metaphysics is his theory of monads, as exposited in his short book: Monadologie.
Leibniz tried to reconcile the doctrine of the Atomists with the scholastic theory of matter and form. He also wished to avoid both the extreme mechanism of Descartes, who taught that all matter is inert, and the monism of Spinoza, who taught that there is but one substance, God. Descartes defined substance in terms of independent existence, and Spinoza was merely inferring what was implicitly contained in Descartes’ definition when he concluded that therefore there is only one substance, the supremely independent Being, who is God.
... 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 ...
... ot be found without further assumptions to simplify the analysis. Various solutions are tailored to model many gravitational phenomena, such as rotating black holes, expanding Universe, and GRAVITATIONAL WAVES . The derivation of Einstein’s equations from an action allows for easy un ...
... ensor. However, exact solutions can not be found without further assumptions to simplify the analysis. Various solutions are tailored to model many gravitational phenomena, such as rotating BLACK HOLES , expanding Universe, and gravitational waves. The derivation of Einstein’s equati ...
... ensor. However, exact solutions can not be found without further assumptions to simplify the analysis. Various solutions are tailored to model many gravitational phenomena, such as rotating BLACK HOLE s, expanding Universe, and gravitational waves. The derivation of Einstein’s equati ...
... rotating black holes, expanding Universe, and gravitational waves. The derivation of Einstein’s equations from an action allows for easy unification of General Relativity with other CLASSICAL FIELD theories, such as Maxwell theory of Electromagnetism, which are also formulated in t ...
... c second-rank tensor that is a function of the metric . This relationship between the Einstein tensor and the metric tensor allows the equations to be written as a set of non-linear partial DIFFERENTIAL EQUATIONS , whose solutions are the components of the metric tensor. However, exact solu ...
... nt, which makes it possible to include fermionic matter fields with non-integral spin. The Einstein equations in the presence of matter are given by adding the matter action to the Einstein-Hilbert action. Read Other Books: The Single Monad Model of the Cosmos: Ibn Arabi's Vi ...
... tein tensor and the metric tensor allows the equations to be written as a set of non-linear partial differential equations, whose solutions are the components of the metric tensor. However, EXACT SOLUTION s can not be found without further assumptions to simplify the analysis. Various solut ...
... he process, the derivation from an action identifies a natural candidate for the source term coupling the metric to matter fields. Moreover, the action allows for the easy identification of CONSERVED QUANTITIES through Noether’s theorem by studying the symmetries of the action. In G ...
... symmetric second-rank tensor that is a function of the metric . This relationship between the Einstein tensor and the metric tensor allows the equations to be written as a set of non-linear PARTIAL DIFFERENTIAL equations, whose solutions are the components of the metric tensor. However, ex ...
... ll discuss it further in section 9.21. The constants and , on the right side of the equation, are Newton’s gravitational constant, and the speed of light in vacuum, respectively. The LEFT SIDE of the equation is usually defined as Einstein tensor: , which is a symmetric second-rank ...
... black holes, expanding Universe, and gravitational waves. The derivation of Einstein’s equations from an action allows for easy unification of General Relativity with other classical FIELD THEORIES , such as Maxwell theory of Electromagnetism, which are also formulated in terms of an ...
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".
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