Results 281 to 290 of about 232,478 (303)
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2012
We consider first the non-relativistic motion of a particle (anonymous because properties of it are not described) in a Euclidean, two-dimensional flat space–time. It can be formulated in terms of concepts of LINCOS+, i.e. the Lingua Cosmica enriched with the elements described in the previous chapter. After that the relativistic cases are treated.
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We consider first the non-relativistic motion of a particle (anonymous because properties of it are not described) in a Euclidean, two-dimensional flat space–time. It can be formulated in terms of concepts of LINCOS+, i.e. the Lingua Cosmica enriched with the elements described in the previous chapter. After that the relativistic cases are treated.
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Statistical relativistic particle
Journal of Applied Probability, 1967This paper arises from the observation by Dirac [1] that an exact measurement of the velocity of an electron should give one of the instantaneous values ± c. The velocity v < c with which the electron moves bodily is in some statistical sense an average.
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Physical Review D, 1977
The relationship between the 1961 paper of the above title and more recent papers on the subject is clarified.
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The relationship between the 1961 paper of the above title and more recent papers on the subject is clarified.
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Relativistic Two-Component Particle–Particle Tamm–Dancoff Approximation
Journal of Chemical Theory and Computation, 2016With the recent introduction of the particle-particle random-phase and Tamm-Dancoff approximations to ab initio theory, routine queries of traditionally difficult systems, such as diradicals and doubly excited states, have been made possible.
Williams-Young, David +2 more
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Relativistic Quantum Particles
2000The theory of time reversal and duality of Markov processes was applied to non-relativistic quantum particles in Chapter III. In this chapter we apply the stochastic theory to relativistic quantum particles. We will consider the relativistic Schrodinger equation of a spinless particle in an electromagnetic field.
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Relativistic Systems of Interacting Particles
Physica Scripta, 1970A multitemporal non-hereditary formulation of relativistic dynamics is given. According to it, a dynamical system of N particles involves some realization of the N-parameter abelian group. The usual concept of flow is replaced by more general tools coming from bitensor calculus.
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1968
The fundamental assumption in Newtonian mechanics is the absolute nature of space and time. That our empirical knowledge of the physical world points up to the contrary was one of the cornerstones of Einstein’s great critique of space and time. The analysis of Einstein and Lorentz of the empirical and mathematical nature of the physical phenomena ...
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The fundamental assumption in Newtonian mechanics is the absolute nature of space and time. That our empirical knowledge of the physical world points up to the contrary was one of the cornerstones of Einstein’s great critique of space and time. The analysis of Einstein and Lorentz of the empirical and mathematical nature of the physical phenomena ...
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Relativistic Particle Dynamics. II
Physical Review, 1953Bakamjian, B., Thomas, L. H.
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