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Anaximander review: Did Anaximander create science, asks Carlo Rovelli

Ancient philosopher Anaximander's discoveries about rain, wind and the cosmos may make him the true force behind modern science, argues physicist Carlo Rovelli in his newly republished first book
Plaster bust of philosopher Anaximander and group of other busts. Portraits of ancient historical persons. Mass-product souvenir in Turkey. Copy space, selected focus; Shutterstock ID 2261783295; purchase_order: -; job: -; client: -; other: -
Most of the ideas of Anaximander (second from right) have come to us through the writing of Aristotle
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Carlo Rovelli (translated by Marion Lignana Rosenberg)
(Allen Lane)

ASTRONOMY was conducted at Chinese government institutions for more than 20 centuries before Jesuit missionaries turned up and, somewhat bemused, pointed out that Earth is round. Why, after so much close observation and meticulous record-keeping, did 17th-century Chinese astronomers still think Earth was flat?

Theoretical physicist Carlo Rovelli addresses this in Anaximander and the Nature of Science, his first book, released in French in 2009 and now published in the UK for the first time in this lively English translation. He can be certain of one thing: “the observation of celestial phenomena over many centuries, with the full support of political authorities, is not sufficient to lead to clear advances in understanding the structure of the worldâ€.

So, how had Europeans managed to come to this insight? Rovelli ties his answers to the life and work of Anaximander, born in 610 BC in the cosmopolitan ancient Greek city of Miletus, .

We know about that work mostly through Aristotle because Anaximander’s only known treatise is lost, aside from a tantalising fragment revealing his notion that there are natural laws that organise phenomena through time. He also worked out the causes of wind and rain, and deduced that all animal life came from the sea, arising from fish or fish-like creatures.

Rovelli isn’t interested in such examples of apparent prescience. He is enchanted, though, by the quality of Anaximander’s thought. Take the philosopher’s most famous observation – that Earth is a finite body of rock floating freely in space. Anaximander suggests there is a void beneath Earth through which heavenly bodies like the sun must travel when they roll out of sight.

This isn’t saying much more than: when someone walks behind a house, they will reappear on the other side. Yet what makes this observation so radical is that, when applied to heavenly bodies, it contradicts everyday experience, where objects fall in one direction. The fact that the sun rises again suggests that space doesn’t have a privileged direction in which objects fall – an idea that runs against “common senseâ€.

So, Anaximander arrives at a concept of gravity: he calls it “dominationâ€. Earth hangs in space without falling because it doesn’t have any particular direction in which to fall, and that is because there isn’t anything around big enough to dominate it. You and I, being much smaller than Earth, fall towards it. “Up†and “down†are no longer absolutes, they are relative.

The second half of Rovelli’s book is less exciting, but more trenchant, perhaps to compensate for covering more familiar territory. It explains how science, evolving out of Anaximander’s attitude towards his teacher Thales, developed into a quite unnatural way of thinking.

Thales, in Anaximander’s view, was a wise man who was wrong about everything being made of water. The idea of being wise and wrong simultaneously, says Rovelli, can only come from a sophisticated theory of knowledge, “according to which truth is accessible but only gradually, by means of successive refinementsâ€.

All Rovelli’s wit, intellectual agility and most of his charm are in evidence in this thrilling early work, as he explains how Nicolaus Copernicus perfects Claudius Ptolemy’s work by applying his mathematics to a better question, and how Albert Einstein perfects the work of Isaac Newton by pushing Newton’s mathematics past a priori assumptions. Nothing is thrown away in such scientific “revolutionsâ€. Everything is repurposed.

Simon Ings is a writer based in London

Topics: Ancient humans / Astronomy / Philosophy