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]
... lunar month. The normal lunar month used in Islamic calendar calculations, though, is the time interval between new moons as observed from earth, which equals 29.5 days; this is called the ' ...
... ysically justify this abrupt change in velocity. Obviously, the problem is that with zero-time intervals, the acceleration would be infinite, and hence the force and energy. Light does in fa ...
... future ones is also not independently real. In contrary to the classical Newtonian view, time intervals depend greatly on the observer's frame of reference. In classical mechanics, and base ...
... future ones is also not independently real. In contrary to the classical Newtonian view, time intervals depend greatly on the observer’s frame of reference. In classical mechanics, and ba ...
... ible unit of time, but internally it seems to be continuously divisible into ever smaller time intervals, at least potentially. Therefore, just as the Single Monad might be identical with th ...
... h the three-dimensional Euclidean space into a four-dimensional manifold, where the space-time interval between any two events is independent of the inertial frame of reference in which they ...
... Monad (Haj Yousef, 2014). On the other hand, as we can see from Figure 5, the space-time interval can be obtained from: , or for motion on x-axis only. Alternatively, we can now use ...
... , the kinetic energy is the work done in accelerating a particle during the infinitesimal time interval , and it is given by the dot product of force and displacement : ...
... future ones is also not independently real. In contrary to the classical Newtonian view, time intervals depend greatly on the observer's frame of reference. In classical mechanics, and base ...
... lunar month. The normal lunar month used in Islamic calendar calculations, though, is the time interval between new moons as observed from earth, which equals 29.5 days; this is called the ' ...
... ible unit of time, but internally it seems to be continuously divisible into ever smaller time intervals, at least potentially. Therefore, just as the Single Monad might be identical with th ...
... tessence is the Single Monad. On the other hand, as we can see from Figure I.4, the space-time interval can be obtained from: , or for motion on x-axis only. Alternatively, we can now ...
... h the three-dimensional Euclidean space into a four-dimensional manifold, where the space-time interval between any two events is independent of the inertial frame of reference in which they ...
... tors, four-tensors, and spinors. In particular, a Lorentz covariant scalar, such as space-time interval, remains the same under Lorentz transformations and is said to be a Lorentz invariant, ...
... , the kinetic energy is the work done in accelerating a particle during the infinitesimal time interval , and it is given by the dot product of force and displacement : (3 ...
... lunar month. The normal lunar month used in Islamic calendar calculations, though, is the time interval between new Moons as observed from Earth, which equals 29.5 days; this is called the s ...
... y of our space. 5.2.3 The Proper Time We can clearly see from Figure 5.1 that space-time intervals can be obtained from: , or , because the modulus of hyperbolic or split-complex numbe ...
... , the kinetic energy is the work done in accelerating a particle during the infinitesimal time interval , and it is given by the dot product of force and displacement : (5.5) Thus: (5.6) Now ...
... invariant temporal and spatial intervals between two events, there is one invariant space-time interval. Therefore, Special Relativity replaced the Galilean transformations of the Newtonian ...
... h the three-dimensional Euclidean space into a four-dimensional manifold, where the space-time interval between any two events is independent of the inertial frame of reference in which they ...
... ce is the Single Monad [ 18 ]. On the other hand, as we can see from Figure 1 , the space-time interval can be obtained from: ∥ s ∥ = x 2 + y 2 + z 2 − ( c t i ) 2 = r 2 − ( c t i ) ...
... tational masses, in addition to allowing energy and mass to become imaginary, negative and even multidimensional. This will be discussed further in sections 5.1 , 5.2 and 5.4 , respectively. ...
... tational masses, in addition to allowing energy and mass to become imaginary, negative and even multidimensional. This will be discussed further in sections 5.1 , 5.2 and 5.4 , respectively. ...
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 .....>>>>