Abstract
The existence of causal explanations in science has been an issue of interest in Western philosophy from its very beginnings. That is the reason this work, following an idea of Mario Bunge, makes a historical review of this matter. The modern treatment of this subject takes place since the postulation by Popper and Hempel of the D-N model of scientific explanation, whose viability is scrutinized here from different points of view in the current philosophy of science. The main object of this paper is to present two arguments against the possibility of causal explanations in theoretical physics. The first one concerns the existence, in certain cases, of inter-theoretical incompatibilities, and the second refers to the need to resort, in other cases, to concatenations of laws of different theories and disciplines. The final conclusion will be the defence of a form of theoretical explanation, which follows the Popper-Hempel model, but devoid of any ontological and metaphysical connotations.
Complutense Research Group 930174 and Research Project FFI2014-52224-P supported by the Ministry of Economy and Competitiveness of the Spanish Government.
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Notes
- 1.
It is not my aim to make here an interpretation of the concept of causality in Plato. To that end, and without any claim of completeness, I refer to Ashbaugh (1988).
- 2.
This is the translation of Miguel Candel in the Spanish edition of the Organon (Aristóteles 1988, p. 412). In any case as Ross recognizes: “In history and in natural science we are attempting to explain events, and an event is to be explained (in Aristotle’s view) by reference either to an event that precedes it (an efficient cause) or to one that follows it (a final cause)” (Ross 1949, p. 79, Introduction).
- 3.
In this the current philosophy of science clearly disagrees with Aristotle. Hempel for instance claims that “To explain the phenomena in the world of our experience, to answer the question ‘why?’ rather than only the question ‘what?’ is one of the foremost objectives of empirical science” (Hempel 1965, p. 245). Lawrence Sklar considers that “To explain, we feel, is to answer the question why what occurs, and not just to describe what, in fact, does occur” (Sklar 1992, p. 100). And Peter Lipton argues that “The starting point of enquiry into explanation … is the gap between knowing that something is the case and understanding why it is” (Lipton 2001b, p. 103).
- 4.
According to Mach, science is an economy of thought, a clearly instrumentalist idea. He sums up this concept in the following terms: “The economy of thought, the economical representation of the actual, – this was indicated by me, in summary fashion first in 1871 and 1872, as being the essential task of science, and in 1882 and 1883 I gave considerably enlarged expositions of this idea. As I have shewn elsewhere, this conception,… can be traced back to Adam Smith, and, as P. Volkmann holds, in its beginnings even to Newton. We find the same conception again,…, fully developed in Avenarius (1876)” (Mach 1959, p. 49).
- 5.
Henceforth, French refers to the first edition of Duhem’s book.
- 6.
French means here the original edition of Comte’s Cours de Philosophie Positive.
- 7.
For instance, Popper says: “This concept of explanation (now commonly referred to as the ‘deductive-nomological concept of explanation’) is further elaborated in the Logik der Forschung (1934, 2nd ed., 1966), Sect. 12” (Popper 1979, p. 86, note *2. My own translation, A.R.).
- 8.
- 9.
This theory “consists in supposing the sun and his heat to have originated in a coalition of smaller bodies, falling together by mutual gravitation, and generating, as they must do according to the great law demonstrated by Joule, an exact equivalent of heat for the motion lost in collision” Kelvin (1903, pp. 493–4).
- 10.
References
Aristóteles. (1988). In M. Candel (Ed.), Tratados de Lógica (Órganon) (Vol. II). Madrid: Editorial Gredos.
Aristotle. (1975). Posterior analytics (J. Barnes, Trans.). Oxford: Clarendon Press.
Aristotle. (1985). In J. Barnes (Ed.), The complete works (Vol. II). Princeton: Princeton University Press.
Ashbaugh, A. F. (1988). Plato’s theory of explanation. A study of the cosmological account in the Timaeus. Albany: State University of New York Press.
Bacon, F. (1952). Novum organum. In F. Bacon (Ed.), Advancement of learning. Novum Organum. New Atlantis. William Benton, Publisher. Chicago: Encyclopaedia Britannica. 1. First published in 1620.
Berkeley, G. (1970). A treatise concerning the principles of human knowledge. C. M. Turbayne (Ed.), with critical essays. Indianapolis: The Bobbs-Merril Company, Inc. First published in 1710.
Bunge, M. (1962). Causality: A rejoinder. Philosophy of Science, 29, 306–317.
Bunge, M. (1979). Causality and modern science. New York: Dover Publications. First edition 1959 by Harvard University Press.
Bunge, M. (1982). The revival of causality. In G. Floistad (Ed.), Contemporary philosophy. A new survey (Vol. 2, pp. 133–155). The Hague: Martinus Nijhoff. Reprinted in Martin Mahner (ed.), Selected Essays of Mario Bunge. Scientific Realism. New York: Prometheus Books 2001.
Clifford, W. K. (1955). The common sense of the exact sciences. New York: Dover Publications, 1955. First published in 1885.
Comte, A. (2000). The positive philosophy of Auguste Comte. Freely Translated and Condensed by Harriet Martineau. Batoche Books. Kitchener, French original version: Cours de Philosophie Positive. Presentation et notes par Michel Serres, François Dagognet, Allal Sinaceur. Paris: Hermann, 1998.
Copernicus, N. (1993). On the revolutions of the heavenly spheres. In M. J. Adler (Ed.), Great books of the Western World. 15. Ptolemy, Copernicus, Kepler. Chicago: Encyclopaedia Britannica, 1952, Fourth Printing. First published in 1543.
Duhem, P. (1954). The aim and structure of physical theory. Princeton University Press. French original version: La Théorie Physique. Son objet et sa structure. Paris: Chevalier & Rivière, 1906.
Einstein, A. (1973). The mechanics of Newton and their influence on the development of theoretical physics. In A. Einstein (Ed.), Ideas and opinions (pp. 253–261). London: Souvenir Press Ltd. Originally published in Die Naturwissenschaften, vol. 15, 1927.
Feyerabend, P. (1962). Explanation, reduction and empiricism. Minnesota Studies in the Philosophy of Science, III, 28–97. Reduced version: Erklärung, Reduktion und Empirismus, Chap. 4 of Paul K. Feyerabend, Probleme des Empirismus (pp.73–125). Braunschweig/Wiesbaden: Vieweg & Sohn, 1981.
Friedman, M. (1974). Explanation and scientific understanding. Journal of Philosophy, 71, 5–19.
Gilson, E. (1952). La Philosophie au Moyen Age (2nd ed.). Paris: Payot. 1952.
Hanson, N. R. (1958). Patterns of discovery. An inquiry into the conceptual foundations of science. Cambridge: Cambridge University Press.
Hempel, C. G. (1965). Aspects of scientific explanation and other essays in the philosophy of science (2nd ed.). New York: Free Press.
Hempel, C. G. (1966). Philosophy of natural science. Englewood Cliffs: Prentice-Hall, Inc.
Herschel, J. F. W. (1830). A preliminary discourse on the study of natural philosophy. Chicago: Chicago University Press, 1987. (Facsimile edition).
Jevons, S. (1958). The principles of science. A treatise on logic and scientific method. New York: Dover. First published in 1873.
Kant, I. (1998). Critique of pure reason (P. Guyer & A. W. Wood, Trans. & Ed.). Cambridge: Cambridge University Press. Originally published in 1781.
Kelvin, L. (1903). On the age of the sun’s heat. Appendix E. In L. Kelvin (Ed.), Treatise on natural philosophy. Cambridge: Cambridge University Press. First published in Macmillan’s Magazine, March 1862.
Kepler, J. (1981). Mysterium cosmographicum. The secret of the universe (A. M. Duncan, Trans.). New York: Abaris Books. Originally published in 1596.
Kitcher, P. (1981). Explanatory unification. Philosophy of Science, 48, 505–531.
Kitcher, P. (1989). Explanatory unification and the causal structure of the world. In P. Kitcher & W. C. Salmon (Eds.), Scientific explanation (Minnesota Studies in the Philosophy of Science) (Vol. XIII). Minneapolis: University of Minnesota Press.
Lewis, D. (1986). Causal explanation. In D. Lewis (Ed.), Philosophical papers (Vol. II). Oxford: University Press.
Lipton, P. (2001a). What good is an explanation? In G. Hon & S. Rakover (Eds.), Explanation. Theoretical approaches and applications (pp. 43–59). Dordrecht: Kluwer Academic Publishers.
Lipton, P. (2001b). Is explanation a guide to inference? A reply to Wesley C. Salmon. In G. Hon & S. S. Rakover (Eds.), Explanation: Theoretical approaches and applications (pp. 93–120). Dordrecht: Kluwer.
Mach, E. (1959). The analysis of sensations and the relation of the physical to the psychical. New York: Dover. Originally published in 1886.
Mill, J. S. (1843). A system of logic ratiocinative and inductive. London: Longman. 1970.
Misner, C., Thorne, K., & Wheeler, J. A. (1973). Gravitation. New York: Freeman and Co.
Newton, I. (1782). Opera Quae Exstant Omnia. Tom IV. London. (Samuel Horsley, Facsimile ed.). Stuttgart: Friedrich Frommann Verlag.
Ostlie, D., & Carroll, B. (1996). Modern stellar astrophysics. Reading: Addison-Wesley Publication Co., Inc.
Pearson, K. (1911). The grammar of science (1st ed. 1892). New York: Meridian Library edition, second printing 1960.
Plato. (1929). Timaeus. InPlato in twelve volumes (Vol. IX). Cambridge, MA: Harvard University Press.
Popper, K. (1959). The logic of scientific discovery. London: Hutchinson, 1959. First German edition, 1935.
Popper, K. R. (1974). Intellectual autobiography. In P. A. Schilpp (Ed.), The philosophy of Karl Popper (pp. 3–181). La Salle: Open Court.
Psillos, S. (2002). Causation & explanation. Chesham: Acumen Publishing Ltd.
Rivadulla, A. (2005). Theoretical explanations in mathematical physics. In G. Boniolo et al. (Eds.), The role of mathematics in physical sciences (pp. 161–178). Dordrecht: Springer.
Rivadulla, A. (2006). Theoretical models and theories in physics. A rejoinder to Karl Popper’s picture of science. In I. Jarvie, K. Milford, & D. Miller (Eds.), Karl Popper. A centenary assessment. vol. III: Science (pp. 85–96). Aldershot: Ashgate.
Rivadulla, A. (2008). Discovery practices in natural sciences: From analogy to preduction. Revista de Filosofía, 33(1), 117–137.
Rivadulla, A. (2010). Complementary strategies in scientific discovery: Abduction and preduction. In M. Bergman, S. Paavola, V. Pietarinen, & H. Rydenfelt (Eds.), Ideas in action: Proceedings of the applying Peirce conference (Nordic Studies in Pragmatism 1) (pp. 264–276). Helsinki: Nordic Pragmatism Network.
Rivadulla, A. (2016a). Abduction and beyond. Methodological and computational aspects of creativity in natural sciences. IFCoLog Journal of Logic and Its Applications, 3(3), 105–121.
Rivadulla, A. (2016b). Models, representation and incompatibility. A contribution to the epistemological debate on the philosophy of physics. In J. Redmond et al. (Eds.), Epistemology, knowledge and the impact of interaction (Logic, Epistemology and the Unity of Science) (Vol. 38, pp. 521–532). Switzerland: Springer.
Ross, W. D. (1949). Aristotle’s prior and posterior analytics. Oxford: Clarendon Press.
Salmon, W. C. (1984). Scientific explanation and the causal structure of the world. Princeton: University Press.
Sklar, L. (1992). Philosophy of physics. Oxford: Oxford University Press.
Straumann, N. (2004). General relativity. With applications to astrophysics. Berlin: Springer.
Whewell, W. (1847). The philosophy of the inductive sciences (Part One and Part Two). London: Frank Cass and Ltd, Second Edition.
Woodward, J. (2017). Scientific explanation. In E. N. Zalta (Ed.), The Stanford encyclopedia of philosophy (Spring 2017 ed.). https://plato.stanford.edu/archives/spr2017/entries/scientific-explanation/
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Rivadulla, A. (2019). Causal Explanations: Are They Possible in Physics?. In: Matthews, M.R. (eds) Mario Bunge: A Centenary Festschrift. Springer, Cham. https://doi.org/10.1007/978-3-030-16673-1_18
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