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• => The EPR Paradox

... ought experiment was to expose the profound peculiarities of the quantum description of a physical system extended over a large region of space. It seemed that, under certain conditions, a q ...

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• => Temporal Numbers

... many centuries after their victorious introduction and successful applications on various physical systems, imaginary numbers have a genuine and fundamental meaning that unites between physi ...

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• => SINGLE MONAD MODEL - 6. The EPR Paradox:

... ought experiment was to expose the profound peculiarities of the quantum description of a physical system extended over a large region of space. It seemed that, under certain conditions, a q ...

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• => ULTIMATE SYMMETRY - IV.4.1 Hierarchy of Number Sets

... inally ideal, we may not be able to estimate all the inevitable errors in describing real physical systems. Therefore, the concept of errors must be incorporated to the fundamental equations ...

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• => ULTIMATE SYMMETRY - i.3.1 Some Muslim Astronomical Observations

... is moving, and considered how this might be consistent with astronomical computations and physical systems. Other Muslim astronomers, from the Maragha school of astronomy, developed non-Ptol ...

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• => ULTIMATE SYMMETRY - i.4 The Principle of Love and Stationary Action

... n is thought to have a deeper philosophical significance because it seems to suggest that physical systems are governed by final causes. The principle of least action was therefore connected ...

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• => ULTIMATE SYMMETRY - I.1.1 Conservation Laws and Noether Theorem

... ecise description of this relation. The theorem states that each continuous symmetry of a physical system implies that some physical property of that system is conserved. This means that in ...

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• => ULTIMATE SYMMETRY - I.3 Symmetry and Group Theory

... ining equations of motion represented by the Lagrangian break the symmetry. Symmetries in physical systems are defined in terms of conserved Noether Currents of the associated Lagrangian. In ...

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• => ULTIMATE SYMMETRY - I.3.3 Group Theory and Symmetry

... polynomial equations. Group theory provides a powerful method for analyzing abstract and physical systems obeying some kind of symmetry. Group theory has applications in the various fields ...

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• => ULTIMATE SYMMETRY - I.3.5 Group Representation

... , so they are very important in physics because they describe how the symmetry group of a physical system affects the solutions of equations describing that system.       Read ...

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• => ULTIMATE SYMMETRY - II.1.1 Gauge Symmetry

... global and gauge symmetries is that the latter are redundancies in our description of the physical system, so they are not real. In global symmetries, the quantum eigen-states can be divide ...

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• => ULTIMATE SYMMETRY - II.1.4 Spontaneous Symmetry Breaking

... hich are thus spontaneously broken. Spontaneous symmetry breaking is a process by which a physical system in a symmetric state ends up in an asymmetric state. In particular, it can describe ...

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• => ULTIMATE SYMMETRY - II.3.2 Super Symmetry in Strings Theory and Extra Dimensions

... emed to conflict with one of the basic postulates of quantum mechanics, which states that physical systems evolve in time according to the Schroedinger equation. This property is usually ref ...

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• => DUALITY OF TIME - 3.4.5.15  Quantum Information Theories

... measurements. So it is a summary of the observer’s information about an individual physical system changes both by dynamical laws, and whenever the observer acquires new information a ...

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• => DUALITY OF TIME - 3.7  Strings Theory

... emed to conflict with one of the basic postulates of quantum mechanics, which states that physical systems evolve in time according to the Schroedinger equation. This property is usually ref ...

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• => DUALITY OF TIME - 3.3.7  Cosmological Constant

... 1887) in 1859, Ludwig Boltzmann (1844-1906) suggested in 1877 that the energy states of a physical system can be discrete. In 1896, Wien empirically determined a distribution law of black-bo ...

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• => DUALITY OF TIME - 3.4.3  Interpretations of Quantum Mechanics

... sed that the quantum superposition state should not be taken as a real description of the physical system, while the many-worlds interpretation argued that each possible state is a real desc ...

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• => DUALITY OF TIME - 3.4.4.6  The EPR Paradox

... od does not play with dice”. Einstein also rejected the concept that the state of a physical system depends on the experimental arrangement for its measurement, stating that a state of ...

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• => DUALITY OF TIME - 3.4.5.1  Ensemble Interpretation

... rly prepared systems, rather than supposing that it exhaustively represents an individual physical system. In 1926, Max Born used the German words “Haufen gleicher”, translated a ...

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