Physicists regularly invoke universal laws, such as those of motion and electromagnetism, to explain events. Biological and medical scientists have no such laws. How then do they acquire a reliable body of knowledge about biological organisms and human disease? One way is by repeatedly returning to, manipulating, observing, interpreting, and reinterpreting certain subjects-such as flies, mice, worms, or microbes-or, as they are known in biology, "model systems." Across the natural and social sciences, other disciplinary ...
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Physicists regularly invoke universal laws, such as those of motion and electromagnetism, to explain events. Biological and medical scientists have no such laws. How then do they acquire a reliable body of knowledge about biological organisms and human disease? One way is by repeatedly returning to, manipulating, observing, interpreting, and reinterpreting certain subjects-such as flies, mice, worms, or microbes-or, as they are known in biology, "model systems." Across the natural and social sciences, other disciplinary fields have developed canonical examples that have played a role comparable to that of biology's model systems, serving not only as points of reference and illustrations of general principles or values but also as sites of continued investigation and reinterpretation. The essays in this collection assess the scope and function of model objects in domains as diverse as biology, geology, and history, attending to differences between fields as well as to epistemological commonalities.Contributors examine the role of the fruit fly Drosophila and nematode worms in biology, troops of baboons in primatology, box and digital simulations of the movement of the earth's crust in geology, and meteorological models in climatology. They analyze the intensive study of the prisoner's dilemma in game theory, ritual in anthropology, the individual case in psychoanalytic research, and Athenian democracy in political theory. The contributors illuminate the processes through which particular organisms, cases, materials, or narratives become foundational to their fields, and they examine how these foundational exemplars-from the fruit fly to Freud's Dora-shape the knowledge produced within their disciplines. Contributors Rachel A. Ankeny Angela N. H. Creager Amy Dahan Dalmedico John Forrester Clifford Geertz Carlo Ginzburg E. Jane Albert Hubbard Elizabeth Lunbeck Mary S. Morgan Josiah Ober Naomi Oreskes Susan Sperling Marcel Weber M. Norton Wise
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Add this copy of Science Without Laws: Model Systems, Cases, Exemplary to cart. $10.00, very good condition, Sold by RPL Library Store rated 5.0 out of 5 stars, ships from Rochester, NY, UNITED STATES, published 2007 by Duke University Press Books.
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Very Good. No Jacket. Size: 6 1/4" x 9 1/2"; VERY GOOD/NO DJ Former library book. 287 pp. Text clean and unmarked except for usual library treatments. Black cloth boards with white lettering on spine in very good condition. Binding firm.
Add this copy of Science Without Laws: Model Systems, Cases, Exemplary to cart. $120.65, good condition, Sold by Midtown Scholar Bookstore rated 5.0 out of 5 stars, ships from Harrisburg, PA, UNITED STATES, published 2007 by Duke University Press Books.
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Good-Bumped and creased book with tears to the extremities, but not affecting the text block, may have remainder mark or previous owner's name-GOOD Standard-sized.
Add this copy of Science Without Laws: Model Systems, Cases, Exemplary to cart. $137.29, good condition, Sold by Bonita rated 4.0 out of 5 stars, ships from Newport Coast, CA, UNITED STATES, published 2007 by Duke University Press Books.