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The Structure of Scientific Revolutions

🚀 The Book in 3 Sentences

This book examines what constitutes a "scientific revolution". The book goes into detail, with some specific examples covering Copernicus's heliocentric theory of astronomy, Lavoiser´s gas theory and Røntgen´s x-ray theory. It covers what the background for each was and tries to find some common criteria for a scientific revolution.

🎨 Impressions

I liked the book, it was short and to the point, although sometimes a bit dull. I think that it is interesting that the author notes multiple incidents where the old theory is basically meeting so many inconsistencies so that

Might be interesting for those who are interested in how things evolve. To quote the not-so-great Vladimir Lenin, "There are decades where nothing happens, and there are weeks where decades happen".

☘️ How the Book Changed Me

I got more interested in science, and also I want to become better at understanding more in detail what drives these revolutions. Why are they so important?

✍️ My Top Quotes

  • “Truth emerges more readily from error than from confusion.”

  • Helmholtz, in the nineteenth, encountered strong resistance from physiologists to the notion that physical experimentation could illuminate their field.

  • What Lavoisier announced in his papers from 1777 on was not so much the discovery of oxygen as the oxygen theory of combustion. That theory was the keystone for a reformulation of chemistry so vast that it is usually called the chemical revolution.

  • X-rays, however, were greeted not only with surprise but with shock. Lord Kelvin at first pronounced them an elaborate hoax.

  • Copernicus’ co-worker, Domenico da Novara, held that no system so cumbersome and inaccurate as the Ptolemaic had become could possibly be true of nature. And Copernicus himself wrote in the Preface to the De Revolutionibus that the astronomical tradition he inherited had finally created only a monster.

  • “A science that hesitates to forget its founders is lost.”

  • A very different approach to this whole network of problems has been developed by Karl R. Popper who denies the existence of any verification procedures at all. Instead, he emphasizes the importance of falsification, i.e., of the test that, because its outcome is negative, necessitates the rejection of an established theory.

  • In the case of the wave theory, one main source of professional conversions was even more dramatic. French resistance collapsed suddenly and relatively completely when Fresnel was able to demonstrate the existence of a white spot at the center of the shadow of a circular disk. That was an effect that not even he had anticipated but that Poisson, initially one of his opponents, had shown to be a necessary if absurd consequence of Fresnel’s theory.

  • A paradigm is what the members of a scientific community share, and, conversely, a scientific community consists of men who share a paradigm.