The Fabric of Reality David Deutch
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The Fabric of Reality
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Criteria for Reality The great physicist Galileo Galilei, who was arguably also the first physicist in the modern sense, made many discoveries not only in physics itself but also in the methodology of science. He revived the ancient idea of expressing general theories about nature in mathematical form, and improved upon it by developing the method of systematic experimental testing, which characterizes science as we know it. He aptly called such tests cimenti, or ‘ordeals’. He was one of the first to use telescopes to study celestial objects, and he collected and analysed evidence for the heliocentric theory, the theory that the Earth moves in orbit around the Sun and spins about its own axis. He is best known for his advocacy of that theory, and for the bitter conflict with the Church into which that advocacy brought him. In 1633 the Inquisition tried him for heresy, and forced him under the threat of torture to kneel and read aloud a long, abject recantation saying that he ‘abjured, cursed and detested’ the heliocentric theory. (Legend has it, probably incorrectly, that as he rose to his feet he muttered the words ‘ eppur si muove…’, meaning ‘and yet, it does move…’.) Despite his recantation, he was convicted and sentenced to house arrest, under which he remained for the rest of his life. Although this punishment was comparatively lenient, it achieved its purpose handsomely. As Jacob Bronowski put it: The result was silence among Catholic scientists everywhere from then on … The effect of the trial and of the imprisonment was to put a total stop to the scientific tradition in the Mediterranean. ( The Ascent of Man, p. 218) How could a dispute about the layout of the solar system have such far- reaching consequences, and why did the participants pursue it so passionately? Because the real dispute was not about whether the solar system had one layout rather than another: it was about Galileo’s brilliant advocacy of a new and dangerous way of thinking about reality. Not about the existence of reality, for both Galileo and the Church believed in realism, the common-sense view that an external physical universe really does exist and does affect our senses, including senses enhanced by instruments such as telescopes. Where Galileo differed was in his conception of the relationship between physical reality on the one hand, and human ideas, observations and reason on the other. He believed that the universe could be understood in terms of universal, mathematically formulated laws, and that reliable knowledge of these laws was accessible to human beings if they applied his method of mathematical formulation and systematic experimental testing. As he put it, ‘the Book of Nature is written in mathematical symbols’. This was in conscious comparison with that other Book on which it was more conventional to rely. Galileo understood that if his method was indeed reliable, then wherever it was applicable its conclusions had to be preferable to those obtained by any other method. Therefore he insisted that scientific reasoning took precedence not only over intuition and common sense, but also over religious doctrine and revelation. It was specifically that idea, and not the heliocentric theory as such, that the authorities considered dangerous. (And they were right, for if any idea can be said to have initiated the scientific revolution and the Enlightenment, and to have provided the secular foundation of modern civilization, it is that one.) It was forbidden to ‘hold or defend’ the heliocentric theory as an explanation of the appearance of the night sky. But using the heliocentric theory, writing about it, holding it ‘as a mathematical supposition’ or defending it as a method of making predictions were all permitted. That was why Galileo’s book Dialogue of the Two Chief World Systems, which compared the heliocentric theory with the official geocentric theory, had been cleared for printing by the Church censors. The Pope had even acquiesced in advance to Galileo’s writing such a book (though at the trial a misleading document was produced, claiming that Galileo had been forbidden to discuss the issue at all). It is an interesting historical footnote that in Galileo’s time it was not yet indisputable that the heliocentric theory gave better predictions than the geocentric theory. The available observations were not very accurate. Ad hoc modifications had been proposed to improve the accuracy of the geocentric theory, and it was hard to quantify the predictive powers of the two rival theories. Furthermore, when it comes to details, there is more than one heliocentric theory. Galileo believed that the planets move in circles, while in fact their orbits are very nearly ellipses. So the data did not fit the Download 1.42 Mb. Do'stlaringiz bilan baham: |
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