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            Lieberman,V. (1997).Transcending East-West dichotomies: State and cul-  Mechanical Predecessors
              ture formation in six ostensibly disparate areas. Modern Asian Stud-  Programmable digital computers were developed just
              ies, 31, 463–546.
            Lieberman,V. (2004). Strange Parallels: Southeast Asia in Global Context  before the middle of the twentieth century, but the more
              c.800-1830, vol. 1 Integration on the Mainland. New York: Cambridge  general history of devices that help people think goes
              University Press.
            Pomeranz, K. (2001). The great divergence: China, Europe, and the mak-  back to prehistoric times, when someone first carved
              ing of the modern world economy. Princeton, NJ: Princeton University  marks on a stick to count the cattle in a herd or mark the
              Press.                                            days in the phases of the moon. Complex additions and
            Richards, J. (2003). The unending frontier:An environmental history of the
              early modern world. Berkeley: University of California Press.  subtractions were done in ancient days by arranging peb-
            Rodinson, M. (1974). Islam and capitalism (B. Pearce,Trans.). London:  bles in piles on the ground, and our word calculate
              Allen Lane.
            Skocpol,T. (1979). States and social revolutions: A comparative analysis  derives from the Latin word  calculus or pebble. The
              of France, Russia, and China. New York: Cambridge University Press.  most complex known “computer” of classical civilization
            Tilly, C. (Ed.). (1975). The formation of national states in Western Europe.  is the remarkable geared Antikythera device, which appar-
              Princeton, NJ: Princeton University Press.
            Tilly, C. (1992). Coercion, capital, and European states, AD 990–199.  ently was designed to predict the motions of the sun,
              Oxford, UK: Blackwell.                            moon, and planets. Found in a shipwreck on the bottom
            Wallerstein, I. (1974). The modern world-system: Capitalist agriculture
              and the origins of the European world-economy in the sixteenth century.  of the Mediterranean Sea, it is believed to date from
              New York: Academic Press.                         about 80 BCE.
            Wallerstein, I. (1980). The modern world-system II: Mercantilism and the  Computing has always been closely allied with math-
              consolidation of the European world-economy, 1600–1750. New
              York: Academic Press.                             ematics, and the invention of logarithms by the Scottish
            Wallerstein, I. (1989). The modern world-system III: The second era of  mathematician John Napier around 1614 was a major
              great expansion of the capitalist world-economy, 1730–1840s. New
              York: Academic Press.                             advance for practical calculating.With a mechanical cal-
            Weber, M. (1958). The Protestant ethic and the spirit of capitalism (T. Par-  culating device, it is much easier to add than to multiply,
              sons,Trans.). New York: Scribner.                 and subtraction is much easier than division. Logarithms
            Wong, R. B. (1997). China transformed: Historical change and the limits
              of European experience. Ithaca, NY: Cornell University Press.  turned multiplication into addition, and division into sub-
            Wong, R. B. (2002).The search for European differences and domination  traction, at the cost of looking up numbers in vast books
              in the early modern world: A view from Asia. American Historical
              Review, 107.2, 447–469.                           of tables that themselves had to be calculated by hand.
                                                                From Napier’s time until the introduction of transistor-
                                                                ized electronic calculators around 1970, a book of loga-
                                                                rithm tables was a standard tool for engineers and
                                                                scientists.They were cumbersome to use, so for quick esti-
                                  Computer                      mates slide rules were employed. A slide rule is an ana-

                                                                log calculating device based on logarithmic scales marked
                omputers have transformed work, communication,  along rulers that slide past each other. The term analog
            Cand leisure activity, and they promise future changes  refers to the analogy between the abstract numbers and
            of equal magnitude. For many years, computer technol-  corresponding physical distances along a line.
            ogy was dominated by groups in the United States,     Digital mechanical calculators that represented num-
            because that nation had the largest single market and its  bers as precise digits were also developed—for example,
            government invested heavily in military applications and  by the French mathematician and philosopher Blaise Pas-
            fundamental science and engineering. But many nations  cal in 1642.A common approach was to connect a series
            contributed to the technological basis on which com-  of wheels, each of which would turn in ten steps for the
            puting arose, and with the development of the World  digits 0 through 9. A legend has developed that the
            Wide Web computing became a global phenomenon.      eccentric English dilettante Charles Babbage was the