Paul Feyerabend’s autobiography, Killing Time, is a nice summary of the life of a very interesting person. Very brief snapshot:
Growing up in Austria he eventually participated (drafted) in World War II and became a Nazi officer. Shot in the spine and disabled for life he went back to university where he studied music, theatre, and science. He became an important intellectual in the philosophy of science. After the war he participated and became a key member of the yearly meetings in Alpbach. His ideas were influenced by Karl Popper (initially), Ludwig Wittgenstein, and Felix Ehrenhaft. He eventually found his way to Berkeley, California where he became a professor. He taught mostly at Berkeley and ETH Zürich.
His life and ideas were intimately connected with many great thinkers of the 20th century: including Karl Popper, Thomas Kuhn, and Imre Lakatos. The autobiography is a good introduction to Feyerabend. Getting to know the background and personal experiences of the great thinker helps gain perspective while reading his philosophical works.
I wonder what, if anything, Feyerabend had to say about Alan Watts? In some ways I feel that Feyerabend has helped to add elements of Eastern Philosophy to Western Philosophy. For instance, Feyerabend’s principal that anything goes and his scientific anarchy seem to have a Zen or Taoist connection. His continual insistence that reality fails to be objectively expressed by language also suggests a connection, but I believe this was also expressed by Wittgenstein?
It is surprising to me that man’s awareness of meteorites as being “rocks from space” is relatively recent (early 1900’s). There have been numerous “witnessed falls” throughout written history; however, the association of these heavenly phenomena (meteors) with solid iron and rocky objects was almost non-existent. Instead they were commonly regarded as apparitions much like rainbows. This explains the existence of several English words which are all related to these objects, their atmospheric interaction and their final discovery as a rock like object — i.e., a meteoroid becomes a meteor which becomes a meteorite. The realization that meteors are formed by space rocks began the “meteorite rush.”
The search for specimens was initially done by a small group of people, and in some cases a single man, Harvey Nininger; Nininger was as American meteorite pioneer in the early/middle part of the 20th century. He raised awareness and spent his entire life devoted to meteorite hunting and study. After Nininger, Robert Haag became the most widely known meteorite hunter and collector in America. Now scientific teams and other meteorite hunters all over the world are providing vast numbers of finds in the Antarctic and in various deserts spanning the globe.
Against Method, by Paul Feyerabend, contains provocative insights into the connectedness of all human abstractions, ideologies, cultures, methodologies, etc… Feyerabend’s arguments are extremely valuable to people of all backgrounds who pursue an understanding of reality.
Feyerabend expresses an idea which hints that all human ideologies in the noosphere depend on each other in some way. This universal connectedness therefore indicates that we cannot declare one ideology better than another. In other words there does not exist an objective form of judgement and all people must allow anything that can express itself to express itself, a complete anarchy of ideas. I would add that it is only when institutions or social structures attempt to fight this anarchy that progress, as defined by various definitions, ceases to exist or becomes retarded.
Traditions, language, theories, facts, statements, and questions — all related in a complex web of dependencies:
I was curious to learn about the Whole-Earth Decompression Dynamics (WEDD) theory developed by J. Marvin Herndon after I discovered that Lynn Margulis had edited and recommended his work several years ago. After purchasing Herndon’s Earth and the Dark Side of Science and reading the foreword by Dorion Sagan, whom I respect as an excellent science writer, I began to see Herndon as a scientist who is attempting to shake the foundations of more than three distinct subject areas – Geoscience, Planetary Sciences, and Nuclear Science. Whether or not you personally think his WEDD theory is right or wrong is irrelevant to the truth. If someone thinks his theory is incorrect, then they can refute the theory with substantive evidence by publishing a paper which details the inconsistencies in logic or facts. But remember, as Feyerabend and Kuhn note repeatedly, facts are always theory laden.
Science is not a religion; scientists are not priests who defend a fixed doctrine. Scientists who simply ridicule or resort to name calling are doing a disservice to science in a time when science is being attacked on many fronts – by religions, governments, and corporations. Scientists who forsake truth for tenure, personal prestige or their own beliefs are just as dangerous to science as any external threat. And this does not exclude Herndon himself.
As a reader of science subjects, I find the ideas of Herndon to be a fresh and fascinating departure from the status-quo. This is what science is all about, proposing preposterous ideas and then proving them right or wrong. His theory is nothing short of a revolution in the subjects previously mentioned. Even if it turns out to be false, they still provide food for thought and may even perhaps result in a more developed and better understanding of the true nature of natural phenomenon.
In light of all the exoplanet discoveries of the Kepler Space Telescope there is even more reason to seriously consider investigating the theories presented by Herdon. Of the thousands of exoplanets discovered thus far, there is a large fraction of Jupiter type planets which lie within the orbit of Earth. In fact there are so many such exoplanets that the question should not be: “Why are there so many Jupiter type planets in such close proximity to their host star?” but should rather be: “Why does our Solar System not contain Jupiter type planets within Earth’s orbit?”
Even if Herdon’s theory is incorrect regarding the history of our Solar System, his proposed theory is a physical possibility, i.e. there is at least one planet or moon which has had its atmosphere stripped away in the universe. It would therefore be silly not to study the theory. Don’t mathematicians study topics which have no current application? What is the issue with studying situations that did not occur in our Solar System?