Classical and Quantum-Mechanical Axioms with the Higher Time Derivative Formalism

A Newtonian mechanics model is essentially the model of a point body in an inertial reference frame. How to describe extended bodies in non-inertial (vibrational) reference frames with the random initial conditions? One of the most general description (known as the higher derivatives formalism) cons...

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Veröffentlicht in:	arXiv.org 2013-07
1. Verfasser:	Kamalov, Timur
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Sprache:	eng
Schlagworte:	Axioms Derivatives Formalism Hilbert space Inertial reference systems Initial conditions Physics - General Physics Physics - Quantum Physics Quantum mechanics Quantum theory
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description	A Newtonian mechanics model is essentially the model of a point body in an inertial reference frame. How to describe extended bodies in non-inertial (vibrational) reference frames with the random initial conditions? One of the most general description (known as the higher derivatives formalism) consists in taking into account the infinite number of the higher order temporal derivatives of the coordinates in the Lagrange function. Such formalism describes physical objects in the infinite dimensional space does not contradict quantum mechanics and infinite dimensional Hilbert space.
doi_str_mv	10.48550/arxiv.1307.1697
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subjects	Axioms Derivatives Formalism Hilbert space Inertial reference systems Initial conditions Physics - General Physics Physics - Quantum Physics Quantum mechanics Quantum theory
title	Classical and Quantum-Mechanical Axioms with the Higher Time Derivative Formalism
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