Abstract
It is argued that the subject matter of science studies requires expansion. In support of this objective, I suggest the need to engage the activities of ordinary as well as extraordinary people in traditional as well as industrial societies, study apparatus consisting of mundane objects as well as multibillion-dollar facilities, and elucidate the kinds of knowledge that make possible the pursuit of material life in every society. The expansion of subject matter along these lines is facilitated by an archaeological approach. After mentioning various perspectives for studying science, the chapter sets forth the elements of the archaeology of science. Finally, a preview is presented of the remaining 12 chapters.
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- 1.
I considered using terms like “natural knowledge,” which dates back to the late seventeenth century, and “practical knowledge,” of more recent vintage, to denote the products of science. I rejected the former because it ignores the agency of humans in knowledge-creation activities and the latter because the term “practical” is highly problematic (Schiffer 2008, chapter 1).
- 2.
People obviously create many other kinds of knowledge having their own domains of use, from social science to theology, but they are not treated in this book.
References
Adams, Jenny L. 2002. Ground stone analysis: A technological approach. Salt Lake City: University of Utah Press.
Anderson, R.G.W. 2000. The archaeology of chemistry. In Instruments and experimentation in the history of chemistry, eds. Frederick L. Holmes and Trevor H. Levere, 5–34. Cambridge, MA: MIT Press.
Atran, Scott, and Douglas Medin. 2008. The native mind and the cultural construction of nature. Cambridge: MIT Press.
Baird, Davis. 2004. Thing knowledge: A philosophy of scientific instruments. Berkeley: University of California Press.
Barnes, Barry, David Bloor, and John Henry. 1996. Scientific knowledge: A sociological analysis. Chicago: University of Chicago Press.
Bennett, J.A. 1997. Museums and the establishment of the history of science at Oxford and Cambridge. The British Journal for the History of Science 30: 29–46.
Bickford, Anne (ed.). 2011. Archaeological investigation of the Parramatta Observatory Site, vol. 1. New South Wales, Australia: Archaeology & Heritage Pty Ltd.
Bud, Robert, and Deborah J. Warner (eds.). 1998. Instruments of science: An historical encyclopedia. New York: Garland.
Cocroft, Wayne D. 2000. Dangerous energy: The archaeology of gunpowder and military explosives manufacture. Swindon, England: English Heritage.
D’Andrade, Roy G. 1995. The development of cognitive anthropology. Cambridge: Cambridge University Press.
Edmonds, Mark. 2010. When they come to model heaven: big science and the monumental in post-war britain. Antiquity 84: 774–795.
Evans, C. 2009. Small agencies and great consequences: Darwin’s archaeology. Antiquity 83: 475–488.
Evans, C., and R. Newman. 2011. An ‘Imperial Philosophical Machine’: The archaeology of the Cambridge Observatory and early modern science. Antiquity 85: 1369–1384.
Fowler, Martin J.F. 2008. The application of declassified KH-7 GAMBIT satellite photographs to studies of cold war material culture: A case study from the former Soviet Union. Antiquity 82: 714–731.
Galison, Peter, and Bruce Hevly (eds.). 1992. Big science: The growth of large-scale research. Stanford, CA: Stanford University Press.
Golinski, Jan. 1998. Making natural knowledge: Constructivism and the history of science. Cambridge: Cambridge University Press.
Griffitts, Janet. 2006. Bone tools and technological choice: Change and stability on the northern plains. Unpublished Ph.D. dissertation, Department of Anthropology, University of Arizona.
Hackmann, W.D. 1978. Electricity from glass: The history of the frictional electrical machine, 1600–1850. The Netherlands: Sijthoff & Noordhoff, Alphen aan den Rijn.
Hall, A.R. 1956[1954]. The scientific revolution, 1500–1800: The formation of the modern scientific attitude. Boston: Beacon Press.
Hankins, Thomas, and Robert J. Silverman. 1995. Instruments and the imagination. Princeton, NJ: Princeton University Press.
Henderson, D., M. Collard, and D.A. Johnstone. 1996. Archaeological evidence for eighteenth-century medical practice in the old town of Edinburgh: Excavations at 13, Infirmary Street and Surgeons’ Square. Proceedings of the Society of Antiquaries of Scotland 126(2): 929–941.
Hughes, Jeff. 2002. The Manhattan project: Big science and the atom bomb. Cambridge, UK: Icon Books.
Hull, G., S. Hamilton-Dyer, P. Blinkhorn, and P. Cannon. 2003. The excavation and analysis of an 18th-century deposit of anatomical remains and chemical apparatus from the rear of the first Ashmolean Museum (now the Museum of the History of Science), Broad Street, Oxford. Post-Medieval Archaeology 37: 1–28.
Hutchins, Edwin. 1995. Cognition in the wild. Cambridge, MA: MIT Press.
Klahr, David, Kevin Dunbar, Anne L. Fay, David Penner, and Christian D. Schunn. 2000. Exploring science: The cognition and development of discovery processes. Cambridge, MA: MIT Press.
Kuhn, Thomas. 1970. The structure of scientific revolutions, 2nd ed. Chicago: University of Chicago Press.
Latour, Bruno, and Steve Woolgar. 1979. Laboratory life: The social construction of scientific facts. Sage Library of Social Research, No. 80.
McAvennie, Mike. 2004. The Roswell dig diaries (Sci Fi declassified). New York: Pocket Books.
McClellan III, John E. 1985. Science reorganized: Scientific societies in the eighteenth century. New York: Columbia University Press.
McKay, Alwyn. 1984. The making of the atomic age. Oxford: Oxford University Press.
Milbrath, Susan. 2009. Archaeoastronomy, ethnoastronomy, and cultural astronomy. In Handbook of space engineering, archaeology, and heritage, eds. Ann G. Darrin and Beth L. O’Leary, 157–192. Boca Raton, FL: CRC Press.
Nagel, Ernest. 1961. The structure of science. New York: Harcourt, Brace and World.
Osbeck, Lisa M., Nancy J. Nersession, Kareen R. Malone, and Wendy C. Newsetter. 2011. Science as psychology: Sense-making and identity in science practice. Cambridge: Cambridge University Press.
Partington, James R. 1961–1970. A history of chemistry (4 vols). London: Macmillan.
Powers, John C. 2012. Inventing chemistry: Herman Boerhaave and the reform of the chemical arts. Chicago: University of Chicago Press.
Reichenbach, Hans. 1966[1951]. The rise of scientific philosophy. Berkeley: University of California Press.
Rothbart, David. 2007. Philosophical instruments: Minds and tools at work. Urbana: University of Illinois Press.
Ruestow, Edward G. 1973. Physics at seventeenth and eighteenth-century Leiden: Philosophy and the new science in the university. The Hague: Nijhoff.
Rye, Owen S. 1981. Pottery technology: Principles and reconstruction. Washington, DC: Taraxacum.
Schiffer, Michael B. 2008. Power struggles: Scientific authority and the creation of practical electricity before Edison. Cambridge: MIT Press.
———. 2011. Studying technological change: A behavioral approach. Salt Lake City: University of Utah Press.
Schiffer, Michael B., Kacy L. Hollenback, and Carrie L. Bell. 2003. Draw the lightning down: Benjamin Franklin and electrical technology in the age of enlightenment. Berkeley: University of California Press.
Schiffer, Michael B., and Andrea R. Miller. 1999. The material life of human beings: Artifacts, behavior, and communication. London: Routledge.
Smits, F.M. (ed.). 1985. A history of engineering and science in the bell system: Electronics technology (1925–1975). Indianapolis, IN: AT&T Bell Laboratories.
Spargo, P.E. 2005. Investigating the site of Newton’s laboratory at Trinity College, Cambridge. South African Journal of Science 101: 315–321.
Veit, Richard. 1996. “A Ray of Sunshine in the Sickroom”: Archaeological Insights into late 19th- and early 20th-century medicine and anesthesia. Northeast Historical Archaeology 25: 33–50.
Watson, James D. 1968. The double helix: A personal account of the discovery of the structure of DNA. New York: Atheneum.
Whittaker, John C. 1994. Flintknapping: Making & understanding stone tools. Austin: University of Texas Press.
Williams, L. Pearce. 1980. The origins of field theory. Lantham, MD: University Press of America.
Wylie, Alison. 2003. Why standpoint matters. In Science and other cultures: Issues in philosophies of science and technology, 26–48. New York: Routledge.
Acknowledgments
I thank Lawrence H. Lazarus for comments on this chapter.
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Schiffer, M.B. (2013). Introduction. In: The Archaeology of Science. Manuals in Archaeological Method, Theory and Technique, vol 9. Springer, Heidelberg. https://doi.org/10.1007/978-3-319-00077-0_1
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