International Journal of Philosophy
Volume 5, Issue 6, December 2017, Pages: 50-53
Received: Oct. 9, 2017;
Accepted: Nov. 13, 2017;
Published: Feb. 3, 2018
Views 2200 Downloads 109
Paulo Castro, Center for Philosophy of Sciences of the University of Lisbon (CFCUL), Lisbon, Portugal
José Ramalho Croca, Center for Philosophy of Sciences of the University of Lisbon (CFCUL), Lisbon, Portugal; Department of Physics, University of Lisbon, Lisbon, Portugal
Rui Moreira, Center for Philosophy of Sciences of the University of Lisbon (CFCUL), Lisbon, Portugal
Mário Gatta, Center for Philosophy of Sciences of the University of Lisbon (CFCUL), Lisbon, Portugal; Centro de Investigação Naval (CINAV), Portuguese Naval Academy, Almada, Portugal
Eurhythmic Physics is a new approach to describe physical systems, where the concepts of rhythm, synchronization, inter-relational influence and non-linear emergence stand out as major concepts. The theory, still under development, is based on the Principle of Eurhythmy, the assertion that all systems follow, on average, the behaviors that extend their existence, preserving and reinforcing their structural stability. The Principle of Eurhythmy implies that all systems in Nature tend to harmonize or cooperate between themselves in order to persist, giving rise to more complex structures. This paper provides a brief non-technical introduction to the subject.
José Ramalho Croca,
On the Foundations of Eurhythmic Physics: A Brief Non Technical Survey, International Journal of Philosophy.
Vol. 5, No. 6,
2017, pp. 50-53.
J. R. Croca, The principle of eurhythmy a key to the unity of physics, Unity of Science, Nontraditional Approaches, Lisbon, October, 25-28, 2006. J. R. Croca, The principle of eurhythmy a key to the unity of physics, in Special Sciences and the Unity of Sciences, Eds. Pombo, O.; Torres, J. M.; Symons, J.; Rahman, S. (Eds.), Springer, 2012.
J. R. Croca, Eurhythmic Physics, or Hyperphysics, The Unification of Physics, Lambert, Berlin, 2015.
1. Croca, J. R., Castro, P., Gatta, M., & Gurriana, L. (2017). A Possible Explanation for the EM Drive Based on a Pilot Wave Theory. Journal of Applied Physical Science International, 8 (4), 145–151.
Adenier, Guillaume; Bergli, Joakim; Thörn, Andreas Pierre & Vistnes, Arnt Inge (2013). Observation of bosonic coalescence and fermionic anti-coalescence with indistinguishable photons. Proceedings of SPIE, the International Society for Optical Engineering. ISSN 0277-786X. 8832. doi: 10.1117/12.2024090.
J. R. Croca, P. Castro, M. Gatta, A. Cardoso and R. Moreira, Pilot-wave gravity and the Titius-Bode Law, accepted. for publ. in New Horizons in Mathematical Physics, Isaac Scientific Publishing.
Daniel M. Harris, Julien Moukhtar, Emmanuel Fort, Yves Couder, and John W. M. Bush, Wavelike statistics from pilot-wave dynamics in a circular corral, Phys. Rev. E 88, 011001 (R) – Published 10 July 2013. See also dot/wave.org and Hydrodynamic quantum analogs.
J. R. Croca, Towards a Nonlinear Quantum Physics, World Scientific, London, 2003.
J. R. Croca, Quantum indeterminism: a direct consequence of Fourier ontology, Proc. SPIE 8832, The Nature of Light: What are Photons? V, 88320Y (October 1, 2013); doi:10.1117/12.2025291.
Mazzola, Andrea. (2015) La controversia sulla teoria dei quanti e la scuola di Lisbona", in Physis, Casa Editrice Olschki of Florence on behalf of Domus Galilæeana of Pisa, Vol. 50, n. 1-2.
Croca, J. R. (2006). Beyond Heisenberg’s Uncertainty Limits. In Gravitation and Cosmology: From the Hubble Radius to the Planck Scale: Proceedings of a Symposium in Honour of the 80th Birthday of Jean-Pierre Vigier. Springer Science & Business Media.
J. R. Croca, Counter Examples to the General Validity of Heisenberg Uncertainty Relations. Hadronic Journal, v. 22, p. 29-39, 1999, J. R. Croca, The Uncertainty Relations. Apeiron, v. 6, n. 3-4, p. 151-165, 1999.
P. Castro, J. R. Croca, M. Gatta, R. Moreira, Generalized Uncertainty Relations in Quantum Mechanics and the Principles of Completeness in Physics, accepted. for publ. in Physical Science International Journal, SCIENCEDOMAIN international.
J. Tennenbaum, Amplitude Quantization as an Elementary Property of Macroscopic Vibrating Systems, 21st Century Science and Technology, p. 50, Winter 2005-2006.