- Deductive-nomological
The deductive-nomological (or D-N) model is a formalized view of scientific explanation in
natural language . It characterizes scientific explanations primarily as deductive arguments with at least one natural law statement among its premises. "Nomological" comes from the Greek word "νόμος" (nomos), i.e., "law."Background
The D-N model is known by many names, including the "covering law model", the "subsumption theory", "Hempel's model", the "Hempel-Oppenheim model", and the
Popper-Hempel model of explanation (Niiniluoto, 1995). Its introduction in the philosophical literature is part of a broad general discussion about the nature of scientific explanation (i.e., what it is, what it should be, etc.).The D-N model is taught implicitly in schools, and approximates our pre-theoretical conception of science, which many non-experts hold. It was initially formalized by
Carl Hempel andPaul Oppenheim in their article "Studies in the Logic of Explanation" (1948). A sketch of it can be found inKarl Popper 's "Logic of Scientific Discovery" (1959).Formalization
The model offers the following account of
scientific explanation , where an explanation is set out as a formalized argument:* Let "p" be the "explanandum" - the statement that describes the phenomenon or phenomena to be explained.
* Let "s1. . . sn" be the "explanans" - the statements that "explain" the statement "P".
In the D-N model, at least one of the statements "si" must be a "law-like" statement--a problematic concept, but initially thought to be captured by universal affirmatives, i.e., statements of the form "all X are Y." The explanans must be appropriately testable or observable--they must have "empirical content." If the premises are all true and if the argument is deductively valid, then the following constitutes a correct deductive-nomological explanation of "p":
"s1". . . "sn", therefore, "p"
As a very simple illustration, consider the following: we observe that a piece of chalk falls when released. Why does the chalk fall? A D-N explanation might look like this (without attending to all subtleties in the precisely correct statement of the premises and conclusion):
*Massive objects attract each other with a force proportional to their masses and inversely proportional to the square of their distance apart.
*The chalk and Earth are massive objects.
*Holding the chalk overcomes the force of attraction between it and Earth
*Therefore, the chalk falls when released
The model is positivist in tone and implication, devised as a prescriptive form for scientific explanations. Due to the way that the model eschews any account of
causality ,scientific modelling , orsimplification --and the general rejection oflogical positivism --it is no longer accepted as dogma.References and further reading
*Hempel, Carl G., and Oppenheim, Paul (1948). "Studies in the Logic of Explanation". "Philosophy of Science 1948:15, 135-75"; reproduced in Hempel, Carl G. (1965). "Aspects of Scientific Explanation". New York: Free Press.
* Mayes, Randolph G. (2006). "Theories of Explanation". "The Internet Encyclopedia of Philosophy", Fieser & Dowdwn (eds.), [http://www.iep.utm.edu/e/explanat.htm http://www.iep.utm.edu/e/explanat.htm] .
* Niiniluoto, Ilkka (1995). "Covering Law Model". "The Cambridge Dictionary of Philosophy", Robert Audi (ed.), New York: Cambridge University Press.
* Popper, Karl. (1959). "The Logic of Scientific Discovery". London: Hutchinson.
*Salmon, Wesley (1990) "Four Decades of Scientific Explanation", University of Minnesota Press.
* Woodward, James. (2003). "Scientific Explanation". "The Stanford Encyclopedia of Philosophy", Edward N. Zalta (ed.), [http://plato.stanford.edu/entries/scientific-explanation/ http://plato.stanford.edu/entries/scientific-explanation/] .ee also
Related subjects
* Explanandum and explanans
*Hypothetico-deductive model
*Models of scientific inquiry
*Philosophy of science
*Scientific method Types of inference
*
Abductive reasoning
*Deductive reasoning
*Inductive reasoning
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