Could the classical relativistic electron be a strange attractor?
Horwitz, L.P., Katz, N., Oron, O. (2004)
Discrete Dynamics in Nature and Society
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Horwitz, L.P., Katz, N., Oron, O. (2004)
Discrete Dynamics in Nature and Society
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Antoni Giró Roca, Joan Angel Padró (1987)
Qüestiió
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Molecular dynamics simulation method for the study of condensed phases of matter is described in this paper. Computer programs for the simulation of atomic motion have been developed. Time-saving techniques, like the cellular method have been incorporated in order to optimize the available computer resources. We have applied this method to the simulation of Argon near its melting point. Differences in the structure, thermodynamic properties and time correlation functions of solid and...
Ignacio Aparicio, Luis Floría (1997)
Extracta Mathematicae
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The process of transforming singular differential equations into regular ones is known as regularization. We are specially concerned with the treatment of certain systems of differential equations arising in Analytical Dynamics, in such a way that, accordingly, the regularized equations of motion will be free of singularities.
Shamrovskii, A.D., Andrianov, I.V., Awrejcewicz, J. (2004)
Mathematical Problems in Engineering
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Jesudason, Christopher G. (2009)
Mathematical Problems in Engineering
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McCauley, Joseph L. (1997)
Discrete Dynamics in Nature and Society
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Boyd, J. N., Hudepohl, R. G., Raychowdhury, P. N. (2002)
International Journal of Mathematics and Mathematical Sciences
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Michal Svrček, Pavol Baňacký (1998)
Acta Universitatis Carolinae. Mathematica et Physica
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