A Systemic Typology of Scientific Phenomena

  • Julio E. Rubio
Chapter
Part of the Analecta Husserliana book series (ANHU, volume 83)

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References

  1. Artigas, M. La Inteligibilidad de la Naturaleza. Pamplona: Ediciones Universidad de Navarra, 1995.Google Scholar
  2. Bertalanffy. L. von. Perspectives on General Systems Theory. M. von Bertalanffy (ed.). New York: George Braziller, Inc. 1975.Google Scholar
  3. Boulding, K. E. “General systems theory — the skeleton of science,” Management Science, 2:3 (1956).Google Scholar
  4. Checkland, P. Systems Thinking, Systems Practice. New York: John Wiley & Sons, 1981.Google Scholar
  5. Corsi, G, Esposito, B. and Baraldi, C. Glosario sobre la teoria social de Niklas Luhmann. México City: Anthropos, Univ. Iberoamericana & ITESO, 1996.Google Scholar
  6. Ducrot, O. and Todorov, T. Diccionario enciclopédico de las ciencias del lenguaje. Mexico City: Siglo Veintiuno Editores, 1996.Google Scholar
  7. Eigen, M. Steps Towards Life. A Perspective on Evolution. Oxford: Oxford University Press, 1992.Google Scholar
  8. Jordan, N. (1968). Themes in Speculative Psychology. London: Tavistock, 1968.Google Scholar
  9. Kauffman, S. A. (1993). The Origins of Order. Self-organization and Selection in Evolution. Oxford: Oxford University Press, 1993.Google Scholar
  10. Luhmann, N. Social Systems. Stanford: Stanford University Press, 1995.Google Scholar
  11. Matsuno, K. (1991) “The uncertainty principle and the origins of life: an odd couple,“ Uroboros (Mexico City), Vol. 1, no. 1 (1991).Google Scholar
  12. Maturana, F. and Varela, H. El arbol del conocimiento. Madrid: Ed. Debate, 1990.Google Scholar
  13. Nagel, T. “What it is Like to be a Bat?” In P. A. Morton (ed.), A Historical Introduction to the Philosophy of Mind. Peterborough (Canada): Broadview Press, 1997. Reprinted from Philosophical Review, LXXXIII, 1974.Google Scholar
  14. Oppenheim, P. and Putnam, H. (1958). “The unity of science as a working hypothesis,” Minnesota Studies in the Philosophy of Sience, Vol. 2, H. Feigl et al. (eds.), Minneapolis: University of Minnesota Press, 1958.Google Scholar
  15. Prigogine, I. and Stengers, I. Order out of Chaos. New York: Bantam Books, 1984.Google Scholar
  16. Rubio, Julio E. “Phenomenology and levels of organization in science,” in A.-T. Tymieniecka (ed.), Life-Truth in Its Various Perspectives. Analecta Husserliana LXXVI. Dordrecht: Kluwer Academic Publishers, 2001.Google Scholar
  17. ____. “Systems as emergent phenomena,” Draft presented to the Fifty-first International Phenomenology Congress, Rome, 2001 (b.)Google Scholar
  18. Ryle, G. The Concept of Mind. New York: Harper and Collins, 1949.Google Scholar
  19. Sarkar, S. (1991). “Reductionism and functional explanation in molecular biology,” Uroboros (Mexico City), Vol. I, no. 1 (1991).Google Scholar
  20. Tymieniecka, A. T. “Truth — the ontopoietic vortex of life,” Phenomenological Inquiry, Vol. XXV, October 2001.Google Scholar
  21. Wicken, J. S. “An organismic critique of molecular Darwinism,” J. Theoretical Biology, 117 (1985), pp. 545–561.Google Scholar
  22. Wimsatt, W. C. “Reductionism, levels of organization, and the mind-body problem,” in G. Globus et al. (eds.), Conciousness and the Brain: A Scientific and Philosophical Inquiry, New York: Plenum, 1976, pp. 199–267.Google Scholar

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© Kluwer Academic Publishers 2004

Authors and Affiliations

  • Julio E. Rubio
    • 1
  1. 1.Tecnologico de MonterreyMexico City

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