04-May-2010, 11:42 PM
(This post was last modified: 05-May-2010, 01:33 AM by Ajita Kamal.)
Source: http://www.skeptic.com/eskeptic/10-04-28/
ROBERT PIRSIG, AUTHOR OF THE WILDLY POPULAR and perennial bestseller, Zen and the Art of Motorcycle Maintenance, could be seen as the founding father of modern pop philosophy. Pirsig may also be the first modern writer to rework old religious fallacies into mysticism/New Age philosophy. Many of his errors have been passed on to modern day gurus and shamans such as Deepak Chopra. Pirsig’s book, first published in 1974, sought to undermine scientific thinking and created an audience of cult-like followers who persist in believing in Pirsig’s non-material claims. Those who doubt Pirsig’s continuing influence might look to Mark Richardson’s recently released book Zen and Now: On the Trail of Robert Pirsig and the Art of Motorcycle Maintenance. In this book the author, like so many of Pirsig’s devotees, traveled the famous route that Pirsig did on his motorcycle. I too would like to follow Pirsig’s path, but with a different intention. I’d like to provide maintenance on his logic. Perhaps debunking Pirsig, even at this late date, will be helpful for addressing the claims of the many pop philosophers and gurus who have begun writing for the niche market that he created.
In the Introduction to the 1999 paperback edition of Zen and the Art of Motorcycle Maintenance, the author mentions schizophrenia. In reference to his own battles with what appears to be some version of split personality disorder, he wrote: “There is a divided personality here: two minds fighting for the same body, a condition that inspired the original meaning of ‘schizophrenia.’”
The more psychologically correct definition of schizophrenia is a diagnosis of an individual who cannot distinguish between the images in his head and images in the world. When the condition of this definition is chronic it is defined as a mental disorder. When it is selective we call it faith. Pirsig’s philosophical mistakes are all schizophrenic in that he cannot always tell the difference between things that merely exist in the mind and things that exist in the world. New Age philosophers often try to distance themselves from their more dogmatic religious cousins. However, a close examination of Pirsig’s writing shows that the errors he makes are carnival mirror distortions of those that plague religion.
In the book, which Pirsig informs us is a chatauquah — a long philosophical discourse told through an individual narrative — the central theme is Pirsig’s search for something that falls outside of the traditional philosophical arena. His alter ego “Phaedrus” (Pirsig’s personality before a long bout with mental illness) became consumed with the concept of “Quality” and went into a deep cavern of philosophical thought in search of what it meant. In order to prevent his search from becoming a scientific quest, Pirsig makes a few clumsy attacks on scientific materialism, otherwise known as atheism.
Here is what he writes:
Phaedrus felt that … scientific materialism was by far the easiest to cut to ribbons. This, he knew from his earlier education, was naïve science. He went after it … using the reductio ad absurdum. This form of argument rest on the truth that if the inevitable conclusions from a set of premises are absurd then it follows logically that at least one of the premises that produced them is absurd. Let’s examine, he said, what follows from the premise that anything not composed of mass-energy is unreal or unimportant.He used the number zero as a starter. Zero originally a Hindu number, was introduced to the West by Arabs during the Middle Ages and was unknown to the ancient Greeks and Romans. How was that? He wondered. Had nature so subtly hidden the zero that all the Greeks and all the Romans — millions of them — couldn’t find it? One would normally think that zero is right out there in the open for everyone to see. He showed the absurdity of trying to derive zero from any form of mass-energy, and then asked, rhetorically, if that meant the number zero was “unscientific.” If so, did that mean that digital computers, which function exclusively in terms of ones and zeros, should be limited to just ones for scientific work? No trouble finding the absurdity here. (297–298)
Pirsig’s brief dismissal of “scientific materialism” aka “atheism” has an outsized importance for his book. Once he has gotten those pesky rules of science out of the way, he is free to meander through the mystical and philosophical caverns until he finds his Quality — a strange trip given the fact that he doesn’t want to be able to touch or even define it. The problem with the quoted passage is that he reduced the wrong argument to absurdity — his own. First of all, the number zero was invented not discovered in the same way that Newton invented calculus or that Darwin invented evolutionary theory. This does not mean that moving objects began with Newton or that evolution began with Darwin, it merely means that humanity finally created a language that could describe a real world phenomenon.
The notion that the Greeks and Romans could not see zero is about as significant as saying that the citizens of a landlocked country could not see a ship. In Charles Seife’s wonderful book Zero: Biography of a Dangerous Idea, he pointed out that Greek mathematics concerned itself primarily with geometry because it was useful for farming and building. They could not conceive of negative landholdings, for example. The concept of zero was created sometime during the 5th or 6th century in the Gupta Dynasty when Hindu thinkers began to contemplate the infinite and the void. Gupta mathematics was impressive and the calculations they were able to do amounted to a scientific revolution.This being said, it would not be proper to say that Indian mathematics was right and Greek mathematics was wrong. This would be like saying that the French language is wrong and German is right. What could be said is that Indian mathematics is more expressive than Greek. The Greeks seem not to have spent much time contemplating the infinite or the void, which is why they had no names for them. The Hindus, driven by a religion that encouraged contemplation of such things, did. Central African tribesmen could hardly be expected to have a word for snow.The Greeks did not contemplate the infinite or the void therefore they had no terms for them. Yet snow, particles, the infinite, and the void exist (or in the case of the last, don’t exist but the concept does). It is only when cultures are made aware of things that they needed language for them and then, because the knowledge of these things was borrowed, so too, were the mathematical and linguistic “names” for them. We see this process occurring all the time. When Americans first encountered Mexican salsa we borrowed not only their sauce but their word for it as well.If we were given a certain limited amount of sensory data — say the observation of the sun peeking over the horizon every morning — we could develop two different mathematical models, or languages, to describe this phenomenon. At first, the Ptolemaic view and the Copernican view would both suffice and there would be no way of saying which was more descriptive. However, let us say that we get a new piece of sensory data, as Galileo did when he used his telescope to see the rotation pattern of the moons of Jupiter, and that one of these models more accurately predicts and describes these new facts, then we would be able to say that one model was the better descriptor of all the facts.The Copernican “theory” is more descriptive of sensory data and gives us a more accurate description of what is really happening in the universe. Thus, because this language was more effective, it displaced the Ptolemaic version. If we understand this we can see that Zeno’s famous paradox, for example, was not a paradox at all. Zeno was simply showing the Greeks that their mathematics (devoid of zero) had no way of describing movement. Modern mathematics, far from being a hard objective “thing” is instead a mish-mash of concepts that arose from a process of cultural synthesis (almost entirely in Eurasia, where cultures were easily able to intermesh because of war and trade). The Greeks contributed geometry, the Gupta Indians the numbers 0–9 and the decimal system, the Muslims gave us Al-Jabr, the English gave us physics, calculus, and the Germans contributed the theory of relativity and quantum mechanics. Each time, a culture’s language was adopted and added not because they were “right” but because they were more descriptive of objective phenomena and therefore a “better” language.
In Zen, Pirsig devoted several pages to the mathematician Poncaire’ (1854–1912) and the supposed mathematical crisis of his time, which involved the “discovery” that two different types of mathematical language — one called Lobachevskian and the other Euclidian (which became known as the Riemann) — could be used.
contd...
ROBERT PIRSIG, AUTHOR OF THE WILDLY POPULAR and perennial bestseller, Zen and the Art of Motorcycle Maintenance, could be seen as the founding father of modern pop philosophy. Pirsig may also be the first modern writer to rework old religious fallacies into mysticism/New Age philosophy. Many of his errors have been passed on to modern day gurus and shamans such as Deepak Chopra. Pirsig’s book, first published in 1974, sought to undermine scientific thinking and created an audience of cult-like followers who persist in believing in Pirsig’s non-material claims. Those who doubt Pirsig’s continuing influence might look to Mark Richardson’s recently released book Zen and Now: On the Trail of Robert Pirsig and the Art of Motorcycle Maintenance. In this book the author, like so many of Pirsig’s devotees, traveled the famous route that Pirsig did on his motorcycle. I too would like to follow Pirsig’s path, but with a different intention. I’d like to provide maintenance on his logic. Perhaps debunking Pirsig, even at this late date, will be helpful for addressing the claims of the many pop philosophers and gurus who have begun writing for the niche market that he created.
In the Introduction to the 1999 paperback edition of Zen and the Art of Motorcycle Maintenance, the author mentions schizophrenia. In reference to his own battles with what appears to be some version of split personality disorder, he wrote: “There is a divided personality here: two minds fighting for the same body, a condition that inspired the original meaning of ‘schizophrenia.’”
The more psychologically correct definition of schizophrenia is a diagnosis of an individual who cannot distinguish between the images in his head and images in the world. When the condition of this definition is chronic it is defined as a mental disorder. When it is selective we call it faith. Pirsig’s philosophical mistakes are all schizophrenic in that he cannot always tell the difference between things that merely exist in the mind and things that exist in the world. New Age philosophers often try to distance themselves from their more dogmatic religious cousins. However, a close examination of Pirsig’s writing shows that the errors he makes are carnival mirror distortions of those that plague religion.
In the book, which Pirsig informs us is a chatauquah — a long philosophical discourse told through an individual narrative — the central theme is Pirsig’s search for something that falls outside of the traditional philosophical arena. His alter ego “Phaedrus” (Pirsig’s personality before a long bout with mental illness) became consumed with the concept of “Quality” and went into a deep cavern of philosophical thought in search of what it meant. In order to prevent his search from becoming a scientific quest, Pirsig makes a few clumsy attacks on scientific materialism, otherwise known as atheism.
Here is what he writes:
Phaedrus felt that … scientific materialism was by far the easiest to cut to ribbons. This, he knew from his earlier education, was naïve science. He went after it … using the reductio ad absurdum. This form of argument rest on the truth that if the inevitable conclusions from a set of premises are absurd then it follows logically that at least one of the premises that produced them is absurd. Let’s examine, he said, what follows from the premise that anything not composed of mass-energy is unreal or unimportant.He used the number zero as a starter. Zero originally a Hindu number, was introduced to the West by Arabs during the Middle Ages and was unknown to the ancient Greeks and Romans. How was that? He wondered. Had nature so subtly hidden the zero that all the Greeks and all the Romans — millions of them — couldn’t find it? One would normally think that zero is right out there in the open for everyone to see. He showed the absurdity of trying to derive zero from any form of mass-energy, and then asked, rhetorically, if that meant the number zero was “unscientific.” If so, did that mean that digital computers, which function exclusively in terms of ones and zeros, should be limited to just ones for scientific work? No trouble finding the absurdity here. (297–298)
Pirsig’s brief dismissal of “scientific materialism” aka “atheism” has an outsized importance for his book. Once he has gotten those pesky rules of science out of the way, he is free to meander through the mystical and philosophical caverns until he finds his Quality — a strange trip given the fact that he doesn’t want to be able to touch or even define it. The problem with the quoted passage is that he reduced the wrong argument to absurdity — his own. First of all, the number zero was invented not discovered in the same way that Newton invented calculus or that Darwin invented evolutionary theory. This does not mean that moving objects began with Newton or that evolution began with Darwin, it merely means that humanity finally created a language that could describe a real world phenomenon.
The notion that the Greeks and Romans could not see zero is about as significant as saying that the citizens of a landlocked country could not see a ship. In Charles Seife’s wonderful book Zero: Biography of a Dangerous Idea, he pointed out that Greek mathematics concerned itself primarily with geometry because it was useful for farming and building. They could not conceive of negative landholdings, for example. The concept of zero was created sometime during the 5th or 6th century in the Gupta Dynasty when Hindu thinkers began to contemplate the infinite and the void. Gupta mathematics was impressive and the calculations they were able to do amounted to a scientific revolution.This being said, it would not be proper to say that Indian mathematics was right and Greek mathematics was wrong. This would be like saying that the French language is wrong and German is right. What could be said is that Indian mathematics is more expressive than Greek. The Greeks seem not to have spent much time contemplating the infinite or the void, which is why they had no names for them. The Hindus, driven by a religion that encouraged contemplation of such things, did. Central African tribesmen could hardly be expected to have a word for snow.The Greeks did not contemplate the infinite or the void therefore they had no terms for them. Yet snow, particles, the infinite, and the void exist (or in the case of the last, don’t exist but the concept does). It is only when cultures are made aware of things that they needed language for them and then, because the knowledge of these things was borrowed, so too, were the mathematical and linguistic “names” for them. We see this process occurring all the time. When Americans first encountered Mexican salsa we borrowed not only their sauce but their word for it as well.If we were given a certain limited amount of sensory data — say the observation of the sun peeking over the horizon every morning — we could develop two different mathematical models, or languages, to describe this phenomenon. At first, the Ptolemaic view and the Copernican view would both suffice and there would be no way of saying which was more descriptive. However, let us say that we get a new piece of sensory data, as Galileo did when he used his telescope to see the rotation pattern of the moons of Jupiter, and that one of these models more accurately predicts and describes these new facts, then we would be able to say that one model was the better descriptor of all the facts.The Copernican “theory” is more descriptive of sensory data and gives us a more accurate description of what is really happening in the universe. Thus, because this language was more effective, it displaced the Ptolemaic version. If we understand this we can see that Zeno’s famous paradox, for example, was not a paradox at all. Zeno was simply showing the Greeks that their mathematics (devoid of zero) had no way of describing movement. Modern mathematics, far from being a hard objective “thing” is instead a mish-mash of concepts that arose from a process of cultural synthesis (almost entirely in Eurasia, where cultures were easily able to intermesh because of war and trade). The Greeks contributed geometry, the Gupta Indians the numbers 0–9 and the decimal system, the Muslims gave us Al-Jabr, the English gave us physics, calculus, and the Germans contributed the theory of relativity and quantum mechanics. Each time, a culture’s language was adopted and added not because they were “right” but because they were more descriptive of objective phenomena and therefore a “better” language.
In Zen, Pirsig devoted several pages to the mathematician Poncaire’ (1854–1912) and the supposed mathematical crisis of his time, which involved the “discovery” that two different types of mathematical language — one called Lobachevskian and the other Euclidian (which became known as the Riemann) — could be used.
contd...
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