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https://plato.stanford.edu/entries/zabarella/
Zabarella recognizes two different ways in which a physician can know the parts of a human body. First, he may learn them through perceptive knowledge and anatomical observations, thereby assimilating the matter of his discipline without understanding its rationale. A physician can also become familiar with the parts of human body through philosophy of nature where he may learn the reasons, which lie behind what he actually sees. Zabarella thinks Aristotle made the same distinction in his books the History of Animals and the Parts of Animals. In the first he relies on sense perception to classify the different parts of animals. In the second, he offers causal explanations for what he is considering. In Zabarella’s opinion this order of understanding results from our own inability to comprehend everything at once. It is thus better to progress gradually from confuse to distinct knowledge. In De rebus naturalibus Zabarella points out that the art of medicine adopts the physiological part from the philosophy of nature. If medical writers want to know the anatomy of the human body, they must therefore follow Aristotle methodologically. Therefore they should not study the History of Animals, but instead the Parts of Animals, which shows us the functions of different parts of the bodies in question. The subject-matter of medicine involves maintaining or recovering health only in human beings, not in other animals. Since the whole discipline deals only with the human body, it cannot be a science in Zabarella’s view. What a natural philosopher writes about animals, a medical writer should apply to human beings.
zabarella
https://plato.stanford.edu/entries/zabarella/
Zabarella moves from the universal and scientific discussion of natural philosophy to a consideration of its particular aspects from the standpoint of operation, not knowledge. Moreover, Zabarella believed that natural philosophy and medicine differ not only in their aims and subject-matters, but also in their methods. The resolutive method is proper to medicine and the compositive method to the philosophy of nature. A physician does not use demonstrations, and if he does, he borrows them from natural philosophy. In medical art the resolutive order of presentation proceeds from knowledge to cure. The end, that is maintaining or recovering health, is broken down into principles, on which the operation is then based. In the order of presentation Zabarella wants to differentiate between the presentation of a whole discipline and that of a part of it. For example, the first part of the art of medicine, physiology, has a compositive order as against the medicine as a whole, which is arranged according to a resolutive order. In Zabarella’s view this shows that physiology does not really belong to medicine at all, but to natural philosophy, because in physiology the nature of a human body is studied apart from operation.
zabarella
https://plato.stanford.edu/entries/zabarella/
Zabarella’s conclusion about the relationship between the art of medicine and natural philosophy is that the latter must consider the universal qualities of health and sickness, while the former concentrates on finding remedies for particular diseases. Zabarella suggests that Aristotle wrote a book of health and sickness of which nothing but a small fragment remains. These fragments are on the borderline of these two disciplines. Zabarella sums this up: where the philosopher ends, there the physician begins (ubi desinit philosophus, ibi incipit medicus). From the universal consideration of sickness and health the physician descends to the treatment of all particular diseases and to knowledge of their causes. While discussing the principles of medical art Zabarella compares anatomical principles with principles derived from natural philosophy. In his view, only the philosophy of nature, not anatomy, can provide a solid basis for medical practioners (Mikkeli 1997, pp. 221–225).
zabarella
https://plato.stanford.edu/entries/zabarella/
From the things considered above, it becomes clear that Zabarella cannot be considered as a precursor of modern experimental science. In spite of its empirical basis, Zabarella’s natural philosophy is not concerned with anything akin to experiment. Indeed, if experiments were to be developed, they would find their place in the productive arts rather than in natural philosophy. Zabarella did not use experiments in order to verify or falsify theories in the modern sense. (Schmitt 1969) However, he made observations of natural things, but they were just made to exemplify and illustrate the demonstrative reasoning used in the theoretical natural philosophy (Rossi 1983, p. 146).
zabarella
https://plato.stanford.edu/entries/zabarella/
During the past decades Zabarella’s name has been linked to modern science. John Herman Randall published already in 1940 (and again in 1961) his famous idea on “the School of Padua” that would have been the precursor of modern science. Following Ernst Cassirer, Randall referred to the Renaissance discussions of regressus-method up to Zabarella as a preparation for Galileo Galilei’s new method of natural science. However, the Aristotelian terminology and doctrines that Zabarella and Galileo share, seem for the most part to have been commonplaces of late medieval and Renaissance thought. Galileo may have known Zabarella’s writings, but far more important source for Galileo was the Jesuit scholars, above all Paolo della Valle, working at the Collegio Romano at Rome (Wallace 1999, p. 338).
zabarella
https://plato.stanford.edu/entries/zabarella/
Instead of overemphasizing the connection between Zabarella and Galileo, it should be noted that Zabarella’s thought had a large impact among Protestant Aristotelians in Germany and in the Low Countries during the late sixteenth century and first part of the seventeenth century (Backus 1989; Maclean 2002). Zabarella’s books were known even in the remote Scandinavian countries surprisingly early already at the turn of the seventeenth-century (Mikkeli 2002). Zabarella’s clear and systematic interpretation of Aristotle’s logic and natural philosophy was used as a basis for numerous Aristotelian textbooks printed in Germany. Moreover, the Protestant academics found Zabarella’s instrumentalist view of logic useful for their theological purposes (Kusukawa 2002). Also in the British Isles the Scholastic revival of the early seventeenth century owed much to Zabarella’s writings (Sgarbi 2012; Sgarbi 2013, 53–78). Recently there has been some considerations whether Zabarella’s distinction between the objects of science (res considerata) and the way of considering (modus considerandi) had an impact on the distinction between matter and form in Immanuel Kant’s philosophy (Sgarbi 2010). Even some modern scholars of Aristotle have still consulted his commentaries with profit.
zabarella
https://plato.stanford.edu/entries/zabarella/
analytic/synthetic distinction | Aquinas, Thomas | Aristotelianism: in the Renaissance | Aristotle | Galileo Galilei | -->Latin Averroism--> | natural philosophy: in the Renaissance | -->Neoplatonism: in the Renaissance-->
zabarella
https://plato.stanford.edu/entries/zabarella/
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Library of Congress Catalog Data: ISSN 1095-5054
zabarella
https://plato.stanford.edu/entries/zeno-elea/
Zeno of Elea, 5th c. B.C.E. thinker, is known exclusively for propounding a number of ingenious paradoxes. The most famous of these purport to show that motion is impossible by bringing to light apparent or latent contradictions in ordinary assumptions regarding its occurrence. Zeno also argued against the commonsense assumption that there are many things by showing in various ways how it, too, leads to contradiction. We may never know just what led Zeno to develop his famous paradoxes. While it is typically said that he aimed to defend the paradoxical monism of his Eleatic mentor, Parmenides, the Platonic evidence on which this view has resided ultimately fails to support it. Since Zeno’s arguments in fact tend to problematize the application of quantitative conceptions to physical bodies and to spatial expanses as ordinarily conceived, the paradoxes may have originated in reflection upon Pythagorean efforts to apply mathematical notions to the natural world. Zeno’s paradoxes have had a lasting impact through the attempts, from Aristotle down to the present day, to respond to the problems they raise. Since the subject of this article is Zeno himself, it undertakes to provide an historically accurate overview of his own thought, rather than an account of how philosophers, mathematicians, and physicists have responded to his provocative arguments.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The dramatic occasion of Plato’s dialogue, Parmenides, is a visit to Athens by the eminent philosopher Parmenides and Zeno, his younger associate, to attend the festival of the Great Panathenaea. Plato describes Parmenides as about sixty-five years old, Zeno as nearly forty, and Socrates, with whom they converse, as “quite young then,” which is normally taken to mean about twenty. Given that Socrates was a little past seventy when executed by the Athenians in 399 B.C.E., this description suggests that Zeno was born about 490 B.C.E. He would appear to have been active in Magna Graecia, that is, the Greek-speaking regions of southern Italy, during the mid-fifth century B.C.E. There is otherwise little credible information about the circumstances of his life. Diogenes Laertius’s brief “Life of Zeno” (D.L. 9.25–9) is largely taken up with stitching together conflicting reports of his involvement in a brave plot to overthrow one of the local tyrants, but how much truth these reports contain cannot be determined. Although Diogenes also says that Zeno so loved his native Elea that he had no interest in immigrating to Athens, this report is not inconsistent with his having spent some time there; and Plutarch’s report that Pericles heard Zeno expounding on the nature of things in the manner of Parmenides (Plu. Pericles 4.5) suggests that Zeno may indeed have visited Athens and read his famous book, as Plato’s Parmenides implies, to a group of intellectually keen Athenians. Vivid evidence of the cultural impact of Zeno’s arguments is to be found in the interior of a red-figure drinking cup (Rome, Mus. Villa Giulia, inv. 3591) discovered in the Etrurian city of Falerii and dated to the mid-fifth century B.C.E. It depicts a heroic figure racing nimbly ahead of a large tortoise and has every appearance of being the first known “response” to the Achilles paradox.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Plato’s Parmenides depicts Socrates going as a young man to hear Zeno reading from the famous book he has brought to Athens for the first time. Parmenides himself and some others, including Pythodorus (the dramatic source of Plato’s report) are portrayed as entering toward the end of the reading so that they hear only a little of Zeno’s recitation. Plato then presents an exchange between Socrates and Zeno, the first part of which is as follows:
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
While the dialogue’s scenario, and thus this exchange, are clearly fictional, this passage is nonetheless normally taken as indicating that Zeno composed a single treatise comprising numerous arguments, cast in the form of antinomies, all purporting to demonstrate the untenability of the commonsense presumption that there are many things.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
While the later tradition unreliably ascribes other works to Zeno, there is some interesting evidence in the commentary on the Parmenides by the Athenian Neoplatonist Proclus (5th c. C.E.) that he was familiar with a work transmitted under Zeno’s name containing forty arguments or logoi (Procl. in Prm. 694, 17–18 Steel). Much of what Proclus says about Zeno in his commentary simply recasts what is already present in the above exchange, but this comment that this work of Zeno’s contained forty arguments, taken with certain other things he says, suggests that Proclus had access to a work with some sort of Zenonian pedigree, a work known to earlier commentators as well (as evidenced by Procl. in Prm. 630.26ff., especially 631.25–632.3). If there was a work available in later antiquity entitled The Forty Arguments of Zeno, it is however unlikely to have been a fair replica of any original treatise of Zeno’s. In the first place, some of Proclus’ apparent references to this work suggest that it fathered upon Zeno arguments akin to some of those in Parmenides’ own elaborate dialectical exercise later in the Parmenides. Furthermore, Aristotle implies that people were reworking Zeno’s arguments soon after they were first propounded. In Physics 8.8, after giving a basic reconstruction of the so-called Stadium paradox (see below, sect. 2.2.1) recalling its presentation in Physics 6.9, Aristotle then notes that some propound the same argument in a different way; the alternative reconstruction he then describes (Arist. Ph. 8.8, 263a7–11) is in effect a new version of the original argument.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Returning to the Parmenides passage, it should also be noted that Socrates’ description of Zeno’s book, which Plato has Zeno endorse, indicates that its arguments had a certain structure and purpose. Specifically, the passage indicates that all Zeno’s arguments opposed the common-sense assumption that there are many things. It might also suggest that these arguments took the form of antinomies like the one Socrates specifically cites, so that the general pattern of Zeno’s argumentation would have been: if there are many things, these must be both F and not-F; but things cannot be both F and not-F; therefore, it cannot be the case that there are many things. Although this description has inspired some to attempt to accommodate the extant paradoxes (of motion, plurality, and place) within a unified architecture that would have provided the plan for Zeno’s original book, if in fact he wrote only one, none of these attempts have proved convincing. Since Plato’s description is in a number of respects difficult to square with what we know from other sources of Zeno’s actual arguments, one should be wary of making it the basis for hypotheses regarding the book’s plan of organization. For one thing, the paradoxes of motion reported by Aristotle do not evidently target the assumption that there are many things, nor do they take the form of antinomies. Moreover, only one of the arguments against plurality elsewhere reported, the antinomy of limited and unlimited, conforms to the pattern of argumentation exemplified in the antinomy of like and unlike described by Plato’s Socrates (see below, 2.1.1). The remaining argument, the antinomy of large and small (see 2.1.2), purports to show not only that the assumption that there are many things leads to an apparent contradiction, but, rather more ambitiously, it purports to reduce each of the contradictory consequences to absurdity. Plato does not actually state, of course, that all Zeno’s arguments took the form of antinomies. In the end, if the characterization of Zeno’s treatise by Plato’s Socrates in the passage above is not quite accurate, there remains no more plausible view from antiquity regarding the general thrust of his arguments, to the extent that there may have been a single one. One can, moreover, easily broaden Socrates’ specification of the target to encompass the arguments against motion and place by changing it to the slightly more complex thesis that there are many things that move from place to place. Socrates might easily have been taking it for granted that, for Zeno, such motion goes along automatically with plurality. What we know of Zeno’s arguments certainly accords with the notion that they were meant to challenge ordinary assumptions about plurality and motion. His arguments are quite literally “para-doxes”—from the Greek para (“contrary to” or “against”) and doxa (“belief” or “opinion”)—arguments for conclusions contrary to what people ordinarily believe. What more there might be to say about Zeno’s purposes will be discussed below, after presentation of what we know of his actual arguments.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The task of reconstructing Zeno’s arguments is sometimes insufficiently distinguished from the task of developing responses to them. How one reconstructs Zeno’s reasoning certainly determines to some extent what will constitute an effective response. The danger is that one’s idea of how to formulate an effective response may affect one’s reconstruction of Zeno’s actual reasoning, particularly if one imports into his arguments concepts more developed or precise than the ones with which he was actually operating. In some cases, as with the one called the Achilles, the paradox’s power derives to a significant extent from the very simplicity of the notions it deploys. The reconstructions provided here therefore aim to preserve something of the manner of Zeno’s own argumentation as we know it from verbatim quotation of at least portions of some of the preserved paradoxes. More formal reconstructions are possible and available. As already noted, at least one effort at improving Zeno’s argumentation was already known to Aristotle. But such efforts can come at the cost of historical accuracy, which is the primary goal of this article. How it might be possible to improve Zeno’s arguments will be left to others. Since it is also essential to appreciate just how much (or how little) we know of Zeno’s arguments, the primary evidence for each major argument is presented along with a reconstruction.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
In his commentary on book 1 of Aristotle’s Physics, the Alexandrian Neoplatonist Simplicius (6th c. C.E.) quotes verbatim Zeno’s argument that if there are many things, they are limited and unlimited, as follows: “If there are many things, it is necessary that they be just so many as they are and neither greater than themselves nor fewer. But if they are just as many as they are, they will be limited. If there are many things, the things that are are unlimited; for there are always others between these entities, and again others between those. And thus the things that are are unlimited” (Zeno fr. 3 DK, i.e., Simp. in Ph. 140.29–33 Diels). This is the only Zenonian antinomy that has the appearance of being preserved in its entirety.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The argument here may be reconstructed as follows. Its overall structure is: If there are many things, then there must be finitely many things; and if there are many things, then there must be infinitely many things. The assumption that there are many things is thus supposed to have been shown to lead to contradiction, namely, that things are both finitely and infinitely many. The particular argument for the first arm of the antinomy seems to be simply: If there are many things, then they must be just so many as they are. If the many things are just so many as they are, they must be finitely many. Therefore, if there are many things, then there must be finitely many things. Simplicius somewhat loosely describes the antinomy’s second arm as demonstrating numerical infinity through dichotomy (Simp. in Ph. 140.33–4). In fact, the argument depends on a postulate specifying a necessary condition upon two things being distinct, rather than on division per se, and it may be reconstructed as follows: If there are many things, they must be distinct, that is, separate from one another. Postulate: Any two things will be distinct or separate from one another only if there is some other thing between them. Two representative things, x1 and x2, will be distinct only if there is some other thing, x3, between them. In turn, x1 and x3 will be distinct only if there is some other thing, x4, between them. Since the postulate can be repeatedly applied in this manner unlimited times, between any two distinct things there will be limitlessly many other things. Therefore, if there are many things, then there must be limitlessly many things.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
In the same stretch of his commentary on Aristotle’s Physics, Simplicius reports at length one of Zeno’s numerous arguments designed to show how the claim that there are many things leads to contradiction. “One of these,” Simplicius says, “is the argument in which he demonstrates that if there are many things, they are both large and small: so large as to be unlimited in magnitude, and so small as to have no magnitude. Indeed, in this argument he shows that what has neither magnitude nor thickness nor bulk would not even exist. ‘For if’, he says, ‘it were added to another entity, it would not make it any larger; for since it is of no magnitude, when it is added, there cannot be any increase in magnitude. And so what was added would just be nothing. But if when it is taken away the other thing will be no smaller, and again when it is added the other thing will not increase, it is clear that what was added and what was taken away was nothing’” (Zeno fr. 2 DK = Simp. in Ph. 139.7–15). After thus quoting this portion of the argument, Simplicius continues: “Zeno says this because each of the many things has magnitude and is infinite [reading apeiron instead of ms. apeirôn], given that something is always in front of whatever is taken, in virtue of infinite division; this he shows after first demonstrating that none have magnitude on the grounds that each of the many is the same as itself and one” (Simp. in Ph. 139.16–19). Soon after this, Simplicius records the argument for unlimited magnitude he has alluded to in the first part of the passage just quoted, as follows: “Infinity in respect of magnitude he earlier proves in the same way. For having first shown that, if what is does not have magnitude, it would not even exist, he continues: ‘But if it is, each must have some magnitude and thickness, and one part of it must extend away from another. And the same account applies to the part out ahead. For that part too will have magnitude and will have part of it out ahead. Indeed, it is the same to say this once as always to keep saying it; for no such part of it will be last, nor will one part not be related to another. Thus if there are many things, they must be both small and large, so small as to have no magnitude, and so large as to be unlimited’” (Zeno fr. 1 DK, = Simp. in Ph. 140.34–141.8).
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Simplicius only alludes to Zeno’s argument for smallness, without setting it out: he says that Zeno derived the conclusion that “none have magnitude on the grounds that each of the many is the same as itself and one.” Although this is not much to go on, the argument may plausibly be reconstructed as follows. Each of the many is the same as itself and one. Whatever has magnitude can be divided into distinguishable parts; whatever has distinguishable parts is not everywhere the same as itself; thus, whatever has magnitude is not everywhere, and so is not genuinely, the same as itself. Whatever is not the same as itself is not genuinely one. Thus, whatever has magnitude is not genuinely one. Therefore, each of the many has no magnitude. The basic assumption here is that to be “the same as itself” is what it means for something to be “one” in the strict sense Zeno envisages, whereas any magnitude, which will have distinguishable parts in virtue of being spatially extended, will fail to be strictly one and self-identical.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The evidence in Simplicius indicates that Zeno then transitioned to the antinomy’s other arm, the unlimited largeness of things, via the following lemma: since what has no magnitude would be nothing, each of the many must have some magnitude. Simplicius’s report of how Zeno specifically argued for the second arm’s conclusion, that each of the many is of unlimited magnitude, pertains primarily to its apparent sub-argument for the interim conclusion that each thing has limitlessly many parts, which ran as follows. Each of the many has some magnitude and thickness (from the lemma). Whatever has some magnitude and thickness will have (distinguishable) parts, so that each of the many will have parts. If x is one of the many, then x will have parts. Since each of these parts of x has some magnitude and thickness, each of these parts will have its own parts, and these parts will in turn have parts of their own, and so on, and so on, without limit. Thus each of the many will have a limitless number of parts. Whether or not Zeno then made explicit how the antinomy’s final conclusion followed from this, here is a plausible reconstruction of the rest of the reasoning was presumably supposed to go: Every part of each thing has some magnitude; the magnitude of any object is equal to the sum of the magnitudes of its parts; and the sum of limitlessly many parts of some magnitude is a limitless magnitude. Therefore, the magnitude of each of the many is limitless.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Taken as a whole, then, this elaborate tour de force of an argument purports to have shown that, if there are many things, each of them must have simultaneously no magnitude and unlimited magnitude.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Aristotle is most concerned with Zeno in Physics 6, the book devoted to the theory of the continuum. In Physics 6.9, Aristotle states that Zeno had four arguments concerning motion that are difficult to resolve, gives a summary paraphrase of each, and offers his own analysis. The ancient commentators on this chapter provide little additional information. Thus reconstruction of these famous arguments rests almost exclusively on Aristotle’s incomplete presentation. Note that Aristotle’s remarks leave open the possibility that there were other Zenonian arguments against motion that he deemed less difficult to resolve. More importantly, Aristotle’s presentation gives no indication of how these four arguments might have functioned within the kind of dialectical scheme indicated by Plato’s Parmenides.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
“First,” Aristotle says, “there is the argument about its being impossible to move because what moves must reach the half-way point earlier than the end” (Ph. 6.9, 239b11–13). He says no more about this argument here but alludes to his earlier discussion of it in Physics 6.2, where, after arguing that both time and magnitude are continuous, he asserts: “Therefore the argument of Zeno falsely presumes that it is not possible to traverse or make contact with unlimited things individually in a limited time” (233a21–3). Subsequently, in Physics 8.8, he again raises the question of how to respond “to those posing the question of Zeno’s argument, if one must always pass through the half-way point, and these are unlimited, and it is impossible to traverse things unlimited” (263a4–6), and he proceeds to offer what he claims is a more adequate solution than the one presented in Physics 6.2. The argument Aristotle is alluding to in these passages gets its name from his mention in Topics 8.8 of “Zeno’s argument that it is not possible to move or to traverse the stadium” as a prime example of an argument opposed to common belief yet difficult to resolve (160b7–9).
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The following reconstruction attempts to remain true to this evidence and thus to capture something of how Zeno may originally have argued. For anyone (S) to traverse the finite distance across a stadium from p0 to p1 within a limited amount of time, S must first reach the point half way between p0 and p1, namely p2.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Before S reaches p2, S must first reach the point half way between p0 and p2, namely p3. Again, before S reaches p3, S must first reach the point half way between p0 and p3, namely p4. There is a half way point again to be reached between p0 and p4. In fact, there is always another half way point that must be reached before reaching any given half way point, so that the number of half way points that must be reached between any pn and any pn-1 is unlimited. But it is impossible for S to reach an unlimited number of half way points within a limited amount of time. Therefore, it is impossible for S to traverse the stadium or, indeed, for S to move at all; in general, it is impossible to move from one place to another.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Immediately after his brief presentation of the Stadium, Aristotle introduces the most famous of Zeno’s paradoxes of motion, that of Achilles and the Tortoise: “Second is the one called ‘Achilles’: this is that the slowest runner never will be overtaken by the fastest; for it is necessary for the one chasing to come first to where the one fleeing started from, so that it is necessary for the slower runner always to be ahead some” (Ph. 6.9, 239b14–18). Simplicius adds the identification of the slowest runner as the tortoise (in Ph. 1014, 5). Aristotle remarks that this argument is merely a variation on the Dichotomy, with the difference that it does not depend on dividing in half the distance taken (Ph. 6.9, 239b18–20), and his analysis, such as it is, emphasizes that this paradox is to be resolved in the same way as the first paradox of motion. Whether this is actually the case is debatable.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
During the time it takes Achilles to reach the point from which the tortoise started (t0), the tortoise will have progressed some distance (d1) beyond that point, namely to t1, as follows:
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Likewise, during the time it then takes Achilles to reach the new point the tortoise has reached (t1), the tortoise will have progressed some new distance (d2) beyond the tortoise’s new starting point, namely to t2, as follows:
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
The tortoise will again have progressed some further distance (d3) beyond t2, namely to t3, in the time it takes Achilles to move from a2(=t1) to a3(=t2). In fact, during the time it takes Achilles to reach the tortoise’s location at the beginning of that time, the tortoise will always have moved some distance ahead, so that every time Achilles reaches the tortoise’s new starting point, the tortoise will be ahead some. Therefore, the slowest runner in the race, the tortoise, will never be overtaken by the fastest runner, Achilles.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Aristotle’s discussion of the relation of motion and time in Physics 6.8 prepares the way for his objection to the Zenonian paradox of motion he mentions at the very beginning of Physics 6.9: “Zeno reasons fallaciously; for he says that if every thing always is resting whenever it is against what is equal, and what moves is always in the now, then the moving arrow is motionless” (Ph. 6.9, 239b5–7). Aristotle remarks that Zeno relies on the false supposition that time is composed of indivisible “nows” or instants (b8–9), a point he soon repeats in identifying the argument purporting to show that “the moving arrow is standing still” as the third of Zeno’s paradoxes of motion (b30–3). In his Life of Pyrrho, Diogenes Laertius reports, “Zeno abolishes motion, saying, ‘What moves moves neither in the place it is nor in a place it is not” (D.L. 9.72 = Zeno B4 DK; cf. Epiphanius, Against the Heretics 3.11). This report, which Diels and Kranz took to preserve a genuine fragment of Zeno’s book, appears to suggest how the argument that the moving arrow is at rest may have figured as part of a broader argument against motion. Diogenes, however, is not a particularly good source for Zeno’s arguments: his Life of Zeno notes only that he was the first to propound the “Achilles” argument, along with many others (D.L. 9.29). It is just as likely, therefore, that Diogenes’ report depends on an intervening attempt to couch the paradoxes of motion reported by Aristotle in the dilemmatic form Plato indicates was typical of Zenonian argumentation.
zeno-elea
https://plato.stanford.edu/entries/zeno-elea/
Even if Diogenes’ report happens to be reliable, we still must rely on Aristotle in trying to reconstruct the argument that, as in Diogenes’ report, what moves does not move in the place where it is. (We get no indication from him of any argument of Zeno’s to show that what moves does not move where it is not; perhaps that was thought self-evident.) And Aristotle’s evidence in this instance is an even more meager basis for reconstruction than usual. Thus, according to Aristotle, the moving arrow (A) is actually standing still. The argument for this conclusion seems to be as follows: What moves is always, throughout the duration of its motion, in the now, that is to say, in one instant of time after another. So, throughout its flight, A is in one instant of time after another. At any particular instant during its flight (t), A occupies a place exactly equivalent to its length, that is, A is “against what is equal.” But whatever is against what is equal is resting. So A is resting at t. But t is no different than the other instants during A‘s flight, so that what is the case with A at t is the case with A at every other instant of its flight. Thus A is resting at every instant of its flight, and this amounts to the moving arrow always being motionless or standing still.
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https://plato.stanford.edu/entries/zeno-elea/
“Fourth,” Aristotle says, “is the one about the things in the stadium moving from opposite directions, being of equal bulk, alongside things of equal size, with some moving from the end of the stadium and some from the middle, at equal speed, in which case he supposes it turns out that half the time is equal to its double” (Ph. 6.9, 239b33–240a1).
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Aristotle’s ensuing discussion of what he takes to be Zeno’s mistakes is based on an exempli gratia scenario normally taken as a basis for reconstruction, as it is here. “For example,” Aristotle says, “let the resting equal masses be those marked AA, let those marked BB be beginning from the middle, being equal in number and size to these, and let those marked CC be beginning from the end, being equal in number and size to these, and moving at the same speed as the Bs” (Arist. Ph. 6.9, 240a4–8).
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Diagram 1
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Diagram 2
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Diagram 1 represents a plausible way of understanding what Aristotle envisages as the starting position in Zeno’s paradox, even though his description of this position is somewhat underdetermined. Aristotle continues: “It follows that the leading B and the leading C are at the end at the same time, once they move past one another” (240a9–10). This description suggests a final position as represented in Diagram 2. Since we have no other indication of how Zeno himself thought he could derive the conclusion Aristotle reports, that “half the time is equal to its double,” from the description of this situation, we have to rely on Aristotle for this as well: “It follows,” Aristotle says, “that the [leading] C has gone past all [the Bs], while the [leading] B has gone past half [the As], so that the time is half; for each of the two is alongside each other for an equal amount of time. But it also follows that the leading B has gone past all the Cs; for the leading C and the leading B will be at the opposite ends at the same time, because both are alongside the As for an equal time” (204a10–17). Apparently, Zeno somehow meant to infer from the fact that the leading B moves past two As in the same time it moves past all four Cs that half the time is equal to its double. The challenge is to develop from this less than startling fact anything more than a facile appearance of paradox. Since it is stressed that all the bodies are of the same size and that the moving bodies move at the same speed, Zeno would appear to have relied on some such postulate as that a body in motion proceeding at constant speed will move past bodies of the same size in the same amount of time. He could have argued that in the time it takes all the Cs to move past all the Bs, the leading B moves past two As or goes two lengths, and the leading B also moves past four Cs or goes four lengths. According to the postulate, then, the time the leading B travels must be the same as half the time it travels. Unfortunately, the evidence for this particular paradox does not enable us to determine just how Zeno may in fact have argued. Aristotle thinks the argument depends upon a transparent falsehood, and one must therefore keep in mind, if it seems he was right, that Aristotle’s presentation and reconstruction may itself be colored by his desire to bear out his accusation.
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Aristotle also gestures toward two additional ingenious arguments by Zeno, versions of which were also known to Simplicius.
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“Zeno’s argument is not correct, that any portion of millet seed whatsoever makes a sound” (Arist. Ph. 7.5, 250a20–1). The version of this argument known to Simplicius represents Zeno as engaged in a fictional argument with Protagoras, wherein he makes the point that if a large number of millet seeds makes a sound (for example, when poured out in a heap), then one seed or even one ten-thousandth of a seed should also make its own sound (for example, in that process) (Simp. in Ph. 1108.18–28). Aristotle’s report is too slight a basis for reconstructing how Zeno may in fact have argued, and Simplicius is evidently reporting some later reworking. The evidence nonetheless suggests that Zeno anticipated reasoning related to that of the sorites paradox, apparently invented more than a century later.
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https://plato.stanford.edu/entries/zeno-elea/
Toward the end of the introduction to his analysis of place, Aristotle notes that “Zeno’s difficulty requires some explanation; for if every thing that is is in a place, it is clear that there will also be a place of the place, and so on to infinity” (Arist. Ph. 4.1, 209a23–5). His subsequent statement of the problem is even briefer but adds one key point: “Zeno raises the problem that, if place is something, it will be in something” (Arist. Ph. 4.3, 210b22–3; cf. Eudemus fr. 78 Wehrli, [Arist.] De Melisso Xenophane Gorgia 979b23–7, Simp. in Ph. 562, 3–6). Zeno would appear to have argued as follows. Everything that is is in something, namely a place. If a place is something, then it too must be in something, namely some further place. If this second place is something, it must be in yet another place; and the same reasoning applies to this and each successive place ad infinitum. Thus, if there is such a thing as place, there must be limitless places everywhere, which is absurd. Therefore, there is no such thing as place. This argument could well have formed part of a more elaborate argument against the view that there are many things, such as that if there are many things, they must be somewhere, i.e. in some place; but there is no such thing as place and thus no place for the many to be; therefore, there are not many things. This is, however, only speculation.
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The commonly found claim that Zeno aimed to defend the paradoxical monism of his Eleatic mentor, Parmenides, is based upon the speculations by the young Socrates of Plato’s Parmenides on Zeno’s ulterior motives. After the portion of the exchange between Socrates and Zeno quoted above (sect. 1), Socrates turns to Parmenides and says:
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Socrates virtually accuses Zeno of having plotted with Parmenides to conceal the fundamental identity of their conclusions. With so many readers of Plato accustomed to taking Socrates as his mouthpiece in the dialogues, it is not surprising that this passage has served as the foundation for the common view of Zeno as Parmenidean legatee and defender, by his own special means, of Eleatic orthodoxy. Unfortunately, this use of the Platonic evidence is unjustifiably selective, even prejudicial, in the weight it accords the words put in Socrates’ mouth. Plato immediately has Zeno disabuse Socrates of his suspicions about the book’s ulterior purpose.
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Zeno this time replies that Socrates has not altogether grasped the truth about his book. First, he says, the book had nothing like the pretensions Socrates has ascribed to it (Prm. 128c2–5). Zeno is made to explain his actual motivation as follows:
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Zeno’s account of how he defended Parmenides against those who ridiculed him is designed to correct Socrates’ mistaken impression that Zeno was basically just arguing for the same thing as Parmenides, that the all is one. Zeno is portrayed as trying to correct this mistaken view of his purposes as born of a superficial understanding of Parmenides’ doctrine. Zeno’s arguments against plurality will seem to entail Parmenides’ doctrine only if his thesis, “one is” (hen esti), is taken to mean that only one thing exists. However, the elaborate examination of this very thesis, “one is” (hen esti), by Parmenides himself in the latter part of the dialogue shows that Plato thinks it is not to be understood in any such trivial sense. For not only does Parmenides end up examining the relation of his One to other things, which would have been impossible if his doctrine entailed their non-existence, but the relation other things have to the One actually proves responsible in a way for their existence. Zeno cannot be supposing that his arguments against plurality entailed the doctrine of Parmenides when that doctrine is represented in this same dialogue by Parmenides himself as something altogether more involved than the simple thesis that only one thing exists. Nevertheless, Zeno’s description of the persons who attempted to ridicule Parmenides is perfectly compatible with their having understood the thesis, “one is” (hen esti), as an assertion that only one thing exists. Zeno’s arguments constitute an indirect defense of Parmenides—“a sort of support” (boêtheia tis, 128c6)—because they do nothing to disabuse his detractors of their superficial understanding of his doctrine. Instead, as Zeno says, he tried to show that the assumption that there are many things has consequences every bit as unpalatable as those Parmenides’ critics suppose his position has (cf. Procl. in Prm. 619.15–21). Thus, while Zeno accepts Socrates’ point that his own arguments aim to show that there are not many things, he corrects Socrates’ impression that, in arguing this point, he was just saying the same thing as Parmenides in a different form.
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The evidence of Plato’s Parmenides, then, does not license the conventional view that Zeno’s arguments against plurality and motion were intended to support the strict monism of Parmenides. Claims to the contrary have rested upon selective and prejudicial use of this evidence due to the tendency to privilege Socrates’ remarks on Zeno’s purposes over Zeno’s own qualifications and corrections of that analysis. What Plato actually suggests is that Zeno aimed to show those whose superficial understanding of Parmenides had led them to charge him with flying in the face of common sense, that common sense views concerning unity and plurality are themselves riddled with latent contradictions. Such is, essentially, the judgment of Jonathan Barnes: “Zeno was not a systematic Eleatic solemnly defending Parmenides against philosophical attack by a profound and interconnected set of reductive argumentations. Many men had mocked Parmenides: Zeno mocked the mockers. His logoi were designed to reveal the inanities and ineptitudes inherent in the ordinary belief in a plural world; he wanted to startle, to amaze, to disconcert. He did not have the serious metaphysical purpose of supporting an Eleatic monism” (Barnes 1982, 236). However, whether the historical Zeno was actually involved in anything like the dialectical context Plato envisages for him must remain uncertain. Even if there were already in Zeno’s day individuals who mistook Parmenides’ position for the thesis that only one thing exists, the idea that Zeno’s arguments were motivated by a desire to respond to such individuals in kind is as historically unverifiable as the claim Plato puts in his mouth that his book was stolen and circulated before he could decide for himself whether to make his arguments public (Pl. Prm. 128d7–e1).
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Nevertheless, just as Socrates’ initial remark that Zeno’s arguments were all designed to show that there are not in fact many things remains basically plausible, so there are elements in Zeno’s account of his own purposes that have the ring of historical truth and that square well with other evidence. Plato has Zeno continue his second response to Socrates (quoted above) by saying, “It was written by me in such a contentious spirit when I was still young. … You are mistaken in this regard, then, Socrates, that you suppose it was written, not under the influence of youthful contentiousness, but under that of a more mature ambition” (Pl. Prm. 128d6–e3). The point is repeatedly made that Zeno’s book was written in a spirit of youthful contentiousness or “love of victory” (philonikia, Prm. 128d7, e2). The more mature Zeno seems a little embarrassed by the combative manner evident in the arguments of his younger days, as well he might since that spirit would have come to be seen as typical of the eristic controversialists who sprang up in the sophistic era. Plato gives yet another nod to the idea that Zeno was a forerunner of eristic contentiousness when he has him say that his book “contradicts (antilegei) those who say the many are” (Prm. 128d2–3). This suggestion that Zeno was a practitioner of what came to be known as “antilogic,” or the art of contradiction, is consistent with Plato’s representation of him in other dialogues as something of a sophist. In the Alcibiades, Socrates reports that Pythodorus and Callias each paid Zeno a hundred minae to become clever and skilled in argument (Alc. 119a3–6; cf. Prm. 126b–c). Teaching for payment is of course one hallmark of the professional educators who styled themselves experts in wisdom. That Plato saw Zeno as a practitioner of the specific brand of argument known as antilogic is evidenced by the Phaedrus’s famous description of him as the “Eleatic Palamedes” for his ability to make the same things appear to his audience both like and unlike, one and many, moving and at rest (Phdr. 261d6–8). Again, at the beginning of the Sophist, when Theodorus introduces the Eleatic Visitor as an associate of Parmenides and Zeno and their followers, Socrates expresses concern that the Visitor may be “some god of refutation” until Theodorus reassures him that the Visitor is more moderate than those who spend their time in eristic and competitive disputation (Sph. 216a–b). Plato’s references thus consistently connect Zeno with the rise of eristic disputation, and it is perfectly plausible that his arguments against plurality and motion would have been well-known examples of making the weaker case seem the stronger.
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The portrait of Zeno and his tactics that emerges from Plato’s references makes it seem natural that Aristotle, in one of his lost dialogues, entitled Sophist, spoke of Zeno as the inventor of dialectic (D.L. 8.57; cf. 9.25; S.E. M. 7.7). Precisely what Aristotle meant by this remains a matter of speculation, given that Aristotle also attributes the invention of dialectic to Socrates (Arist. Metaph. M.4, 1078b25–30) and to Plato (Metaph. A.6, 987b31–3); he says he himself invented the theory of it (SE 34, 183b34–184b8). There is also the question of whether Aristotle viewed Zeno’s arguments as more eristic than properly dialectical. The difference, according to Aristotle, is that dialectical arguments proceed from endoxa or “views held by everyone or by most people or by the wise, that is, by all, most, or the especially famous and respected of the wise,” whereas eristic arguments proceed from what only seem to be, or what seems to follow from, endoxa (Top. 1.1, 100a29–30, b22–5). Aristotle clearly believes that some of Zeno’s assumptions have only a specious plausibility (see Top. 8.8, 160b7–9, SE 24, 279b17–21, Ph. 1.2, 233a21–31, Metaph. B.4.1001b13–16), so that they would by Aristotle’s own criteria be examples of eristic rather than properly dialectical arguments. For Aristotle, then, Zeno was a controversialist and paradox-monger, whose arguments were nevertheless both sophisticated enough to qualify him as the inventor of dialectic and were important for forcing clarification of concepts fundamental to natural science. Aristotle’s view of Zeno thus seems largely in accordance with Plato’s portrayal of him as a master of the art of contradiction.
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Should we then think of Zeno as a sophist? Certainly Isocrates, the rhetorician and contemporary of Plato, did not hesitate to lump Gorgias, Zeno, and Melissus together as among the other “sophists” flourishing in the era of Protagoras and all producing tedious treatises advocating the most outrageous claims (Isoc. Hel. [Orat. 10] 2–3). While there are difficulties in giving precise definition to the term “sophist,” one feature common to those normally classed as such that Zeno lacks is an interest in the interrogation of cultural norms and values. Zeno’s influence, however, on the great sophists who were his contemporaries and, more generally, on the techniques of argumentation promulgated among the sophists seems undeniable. Protagoras’ development of the techniques of antilogic, rooted in his claim that there are two opposed arguments on every matter (D.L. 9.51), seems likely to have been inspired by Zeno’s novel forms of argumentation as well as by his advocacy of the most counter-intuitive of theses. Zeno’s influence is especially clear, moreover, in Gorgias’ treatise, “On Nature, or On What Is Not,” both in its penchant for argumentation via antithesis and reductio and in its use of premises drawn straight from Zeno himself (see [Arist.] MXG 979a23, b25, b37). It is even possible that the famous circle of contemporary intellectuals the great Athenian statesman Pericles gathered around himself provided a major conduit for Zeno’s impact on the first generation of sophists. Plutarch, at any rate, records that “Pericles heard Zeno of Elea discoursing on nature in the manner of Parmenides, and practicing a kind of skill in cross-examination and in driving one’s opponent into a corner by means of contradictory argument” (Plu. Per. 4.5). The skill Plutarch attributes to Zeno, still evident in the fragmentary remains of his arguments, is just the kind of skill in argument manifested in a great deal of sophistic practice. Although doubts have been raised about the reliability of Plutarch’s report that Zeno, like Damon and Anaxagoras, was one of the many contemporary intellectuals whose company was avidly pursued by Pericles, there is little that seriously tells against it. Thus George Kerferd has argued both that the patronage of Pericles and his keen interest in the intellectual developments of his day must have been critically important to the sophistic movement and that Zeno’s paradoxes were a profound influence on the development of the sophistic method of antilogic, which he sees as “perhaps the most characteristic feature of the thought of the whole period” (Kerferd 1981, 18–23, 59ff., 85).
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The evidence surveyed here suggests that Zeno’s paradoxes were designed as provocative challenges to the common-sense view that our world is populated by numerous things that move from place to place. His apparent demonstrations of how the common-sense view is fraught with contradiction made him an influential precursor of sophistic antilogic and eristic disputation. It is not surprising that someone like Isocrates should have viewed Zeno as a sophist to be classed with Protagoras and Gorgias. To ask whether Zeno was in fact a sophist, a practitioner of antilogic, an eristic controversialist, or a proper dialectician is to some extent inappropriate, for these designations all acquired their normal meaning and range of application only after Zeno’s time. While he perhaps does not fit exactly into any of these categories, still his development of sophisticated methods of argumentation to produce apparent proofs of the evidently false conclusions that motion is impossible and that there are not in fact many things made it quite natural for Plato, Aristotle, Isocrates, and others to refer to him under all these labels.
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It is remarkable that, while many of the responses to Zeno’s paradoxes, and even some modern formulations of the paradoxes themselves, depend on advanced mathematical techniques, Zeno’s original arguments do not themselves appear to have involved any particularly complicated mathematics. Several of the paradoxes involve no specifically mathematical notions at all. The Achilles is perhaps the best example since it employs only very ordinary notions, such as getting to where another has started from. The other extant arguments for the most part deploy similarly prosaic notions: being somewhere or being in a place, being in motion, moving past something else, getting halfway there, being of some size, having parts, being one, being like, being the same, and so on. Where Zeno seems to have leapt ahead of earlier thinkers is in deploying specifically quantitative concepts, most notably quantitative concepts of limit (peras) and the lack of limit (to apeiron). Earlier Greek thinkers had tended to speak of limitedness and unlimitedness in ways suggesting a qualitative rather than a quantitative notion. While one might suppose that Zeno’s turn to a more strictly quantitative conception of limit and limitlessness could have been inspired by his familiarity with Pythagorean philosophers and mathematicians in Magna Graecia, we can in fact trace the philosophy of limiters and unlimiteds only back as far as Philolaus, a Pythagorean roughly contemporary with Socrates and thus a good deal younger than Zeno.
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Whatever may have spurred Zeno’s development of his collection of paradoxes, his arguments quickly achieved a remarkable level of notoriety. They had an immediate impact on Greek physical theory. Zeno’s powerful principle that any spatially extended entity must be limitlessly divisible would profoundly impact the development of the subtle and powerful physical theories of both Anaxagoras, who accepts the principle, and the early atomists, Leucippus and Democritus, who reject it. Zeno’s arguments also had a formative influence on Aristotle’s own theory of the continuum and of continuous motion. More generally, Zeno’s arguments made it necessary for Greek natural philosophers to develop something more than an everyday conception of the composition of material bodies. His arguments, perhaps more than anything else, forced the Greek natural philosophers to develop properly physical theories of composition as opposed to the essentially chemical theories of earlier thinkers such as Empedocles. That mathematicians and physicists have worked ever since to develop responses to the more ingenious of his paradoxes is remarkable, though perhaps not surprising, for immunity to his paradoxes might be taken as a condition upon the adequacy of our most basic physical concepts. He may even have offered his collection of paradoxes to provoke deeper consideration of the adequacy of theretofore unexamined notions. If so, it is likewise remarkable that he simultaneously developed forms of argument—most notably, reductio ad absurdum by means of antinomical and/or regress arguments—that have ever since been fundamental to philosophical probing of conceptual adequacy.
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References in this bibliography to items prior to 1980 are more selective than those to more recent items. For a nearly exhaustive and annotated listing of Zenonian scholarship down to 1980, consult L. Paquet, M. Roussel, and Y. Lafrance, Les Présocratiques: Bibliographie analytique (1879–1980), Volume 2, Montreal: Bellarmin/Paris: Les Belles Lettres, 1989, pp. 105–32.
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Comprehensive accounts of Zeno and his arguments may be found in:
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The long standard collection of the fragments of the Presocratics and sophists, together with testimonia pertaining to their lives and thought, has been:
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For the English reader, the fragments and testimonia of the Presocratics and sophists are now most usefully presented in:
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See also:
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The following works also remain useful, despite some outmoded interpretations:
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Texts of the ancient authors other than Zeno referred to in the article:
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English translations of these works may be found in:
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Aristotle discusses Zeno’s paradoxes at some length in Physics VI. His treatment may be usefully approached with the aid of Simplicius’s commentary and that in:
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A plate of the red-figure drinking cup, Mus. Villa Giulia inv. 3591, accompanies:
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Studies of particular paradoxes and of issues bearing upon Zeno’s broader purposes and influence on ancient philosophy include:
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[Please contact the author with suggestions.]
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Aristotle | change: and inconsistency | Parmenides | Presocratic Philosophy | Pythagoras | Simplicius | Zeno of Elea: Zeno’s paradoxes
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The Stanford Encyclopedia of Philosophy is copyright © 2021 by The Metaphysics Research Lab, Department of Philosophy, Stanford University
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Library of Congress Catalog Data: ISSN 1095-5054
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https://plato.stanford.edu/entries/zombies/
Zombies in philosophy are imaginary creatures designed to illuminate problems about consciousness and its relation to the physical world. Unlike the ones in films or witchcraft, they are exactly like us in all physical respects but without conscious experiences: by definition there is ‘nothing it is like’ to be a zombie. Yet zombies behave just like us, and some even spend a lot of time discussing consciousness.
zombies
https://plato.stanford.edu/entries/zombies/
Few people, if any, think zombies actually exist. But many hold that they are at least conceivable, and some that they are possible. It seems that if zombies really are possible, then physicalism is false and some kind of dualism is true. For many philosophers that is the chief importance of the zombie idea. But it is also valuable for the sharp focus it gives to philosophical theorizing about consciousness and other aspects of the mind (see for example Howell 2013; Kriegel 2011; Stoljar 2006; Tye 2008). Use of the zombie idea against physicalism also raises more general questions about the relations between imaginability, conceivability, and possibility. Finally, zombies raise epistemological difficulties: they reinstate the ‘other minds’ problem.
zombies
https://plato.stanford.edu/entries/zombies/
Descartes held that non-human animals are automata: their behavior is wholly explicable in terms of physical mechanisms. But human behavior (he argued) could not be explained in that way. Exploring the idea of a machine that would look and behave like a human being, he thought two things would unmask it: it could not use language creatively, and it could not produce appropriate non-verbal behavior in arbitrarily various situations (Discourse V). For him, therefore, no machine could behave like a human being. Knowing only seventeenth century technology, he concluded that to explain distinctively human behavior required something beyond the physical: an immaterial mind, interacting with processes in the brain and the rest of the body. (He had a priori arguments for the same conclusion, one of which anticipates the ‘conceivability argument’ discussed in Section 3 below.) If he is right, there could not be a world physically like the actual world but lacking such minds: human bodies would not work properly. If we suddenly lost our minds our bodies might continue to run on for a while: our hearts might continue to beat, we might breathe while asleep and digest food; we might even walk or sing in a mindless sort of way (so he implies in his Reply to Objections IV). But without the contribution made by minds, behavior could not show characteristically human features. So although Descartes did everything short of spelling out the idea of zombies, the question of their possibility did not arise for him. The nearest thing was automata whose behavior was easily recognizable as not fully human.
zombies
https://plato.stanford.edu/entries/zombies/
In the nineteenth century scientists began to think that physics was capable of explaining all physical events that were explicable at all. It seemed that every physical effect has a physical cause: that the physical world is ‘closed under causation’. The developing science of neurophysiology was set to extend such explanations to human behavior. But if human behavior is explicable physically, how does consciousness fit into the story? One response — physicalism (or materialism) — is to insist that consciousness too involves only physical processes. However, the phenomena of consciousness are hard to account for in those terms, and some thinkers concluded that something nonphysical must be involved. Given the causal closure of the physical, they were forced to conclude that consciousness has no effects on the physical world. On this view human beings are ‘conscious automata’, as T. H. Huxley put it: all physical events, human behavior included, are explicable in terms of physical processes; and the phenomena of consciousness are causally inert by-products — epiphenomena (see James 1890, Chapter 5). It eventually became clear that this view entailed that there could be purely physical organisms exactly like us except for lacking consciousness. G. F. Stout (1931) argued that if epiphenomenalism (the more familiar name for the ‘conscious automaton’ theory) is true,
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What Stout describes here and finds prima facie incredible is a zombie world: an entire world whose physical processes are closed under causation (as the epiphenomenalists he was attacking held) and exactly duplicate those in the actual world, but where there are no conscious experiences.
zombies
https://plato.stanford.edu/entries/zombies/
Similar ideas were current in discussions of physicalism in the 1970s. As a counterexample to the psychophysical identity theory there was an ‘imitation man’, whose ‘brain-states exactly paralleled ours in their physico-chemical properties’ but who felt no pains and saw no colors (Campbell 1970). It was claimed that zombies are a counterexample to physicalism in general, and arguments were devised to back up the intuition that they are possible (Kirk 1974a, 1974b: he argued that physicalism commits one to the ‘Entailment Thesis’, by which the purely physical truths about the world entail mental truths by logical or conceptual necessity). Other kinds of systems were envisaged which behaved like normal human beings, or were even functionally like human beings, but lacked the ‘qualia’ we have (Block 1980a, 1980b, 1981; Shoemaker 1975, 1981). (See the entry on qualia. Roughly, qualia are the properties by which we classify experiences according to ‘what they are like’: what it is like to smell roasting coffee beans, for example. Even physicalists can consistently use this expression, although unlike dualists they take qualia to be physical.) The most systematic use of the zombie idea against physicalism is by David Chalmers (1996), whose contributions to the debate will be considered shortly.
zombies
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If zombies are to be counterexamples to physicalism, it is not enough for them to be behaviorally and functionally like normal human beings: plenty of physicalists accept that merely behavioral or functional duplicates of ourselves might lack qualia. Zombies must be like normal human beings in all physical respects, and they must have the physical properties that physicalists suppose we have. (For the use of a different kind of zombies in epistemology, see Lyons 2009; for an interesting other kind, which however does not threaten physicalism, see Olson 2018.) This requires them to be subject to the causal closure of the physical, which is why their supposed lack of consciousness is a challenge to physicalism. If, instead, they were to be conceived of as creatures whose behavior could not be explained physically, physicalists would have no reason to bother with the idea: there is plenty of evidence that, as epiphenomenalists hold, our movements actually are explicable in physical terms (see e.g. Papineau 2002).
zombies
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The usual assumption is that none of us is actually a zombie, and that zombies cannot exist in our world. The central question, however, is not whether zombies can exist in our world, but whether they, or a whole zombie world (which is sometimes a more appropriate idea to work with), are possible in some broader sense.
zombies
https://plato.stanford.edu/entries/zombies/
A metaphor of Saul Kripke’s helps to show how the zombie idea threatens physicalism (Kripke 1972/80, 153f.). Imagine God creating the world and deciding to bring into existence the whole of the physical universe. Having created this purely physical universe, did he have to do any more work to provide for consciousness? Answering yes to this question implies there is more to consciousness than the purely physical facts alone can supply. If nothing else, it implies that consciousness depends at least partly on nonphysical properties, ones that would not exist in a purely physical world; it would be a zombie world. Physicalists, on the other hand, are committed to answering no. They have to say that by fixing the purely physical facts, God did everything that was needed to fix the mental facts about the organisms thereby created, including their thoughts, feelings, emotions, and experiences. And if fixing the physical facts is alone enough to fix the mental facts, then it seems that a zombie world is impossible.
zombies
https://plato.stanford.edu/entries/zombies/
However, not everyone agrees that physicalism entails the impossibility of zombies. One suggestion is that physicalists can concede there are possible worlds which are exact duplicates of our world in all purely physical respects, but where the physical properties which give rise to consciousness in our world are prevented from doing so by nonphysical items which block consciousness. That would let physicalists consistently allow the possibility of zombie worlds (Leuenberger 2008. On such ‘blockers’ see Hawthorne 2002b; Chalmers 2010, 163–165). This approach, however, is obviously inconsistent with maintaining that conscious states are either identical with or constituted by physical or functional states. So it is not clear that physicalists can consistently allow the possibility of consciousness-blockers.
zombies
https://plato.stanford.edu/entries/zombies/
In any case, what kind of impossibility is relevant here? Physicalists cannot just say zombies are ruled out by the laws of nature, since even dualists can agree they are impossible in that sense: that it is by nomological necessity that the physical facts about us bring consciousness with them. Physicalism therefore needs something stronger.
zombies
https://plato.stanford.edu/entries/zombies/
Two further kinds of necessity are available: metaphysical and logical. Now, many philosophers (largely influenced by the zombie idea) believe the connection from physical facts to consciousness cannot be logical even in a broad sense. And certainly the conceptual scheme of physics does not appear to enable logical links from the physical to the experiential or phenomenal (see e.g. Kriegel 2011; Stoljar 2006). However, some argue that nevertheless zombies are not really conceivable at all (Kirk 2005, 2008, 2013; Tye 2006); Kirk (2013) also maintains that although the physical facts do not entail the truth about conscious experience a priori, they nevertheless entail it by logical necessity.
zombies
https://plato.stanford.edu/entries/zombies/
Still, many physicalists hold that what guarantees the impossibility of zombies is ‘metaphysical’ necessity. Typically they maintain that states of phenomenal consciousness are identical with physical states, and that these identities are necessary a posteriori as argued by Kripke (see e.g. McLaughlin 2005, and for criticism, Stoljar 2000). But the vocabulary of possibility and necessity is slippery. For example there is disagreement over whether logical and metaphysical possibility are different (see supervenience, Section 3.1); when Kripke (1972/80) writes of ‘logical’ and ‘metaphysical’ possibility he seems to use those words interchangeably (Yablo 1999: 457n.), and some use ‘logical’ where others prefer ‘conceptual’ (Chalmers 1999: 477); compare Latham 2000, 72f.).
zombies
https://plato.stanford.edu/entries/zombies/
Many think that if the physical facts entail consciousness by metaphysical necessity, then physicalists can maintain that even though zombies are metaphysically impossible, they are still conceivable (Balog 2012; Loar 1990/97; McLaughlin 2005; Sections 5.1, 5.2 below). To the contrary, Chalmers argues that conceivability actually entails metaphysical possibility. If he is right, then that popular brand of physicalism is mistaken. The so-called ‘conceivability argument’ for the possibility of zombies will provide a focus for discussing some of the main problems raised by the zombie idea.
zombies
https://plato.stanford.edu/entries/zombies/
The simplest version of this argument goes:
zombies
https://plato.stanford.edu/entries/zombies/
(Kripke used a similar argument in his 1972/80. For versions of it see Chalmers 1996, 93–171; 2010, 141–205; Levine 2001; Nagel 1974; Stoljar 2001.) Clearly the conceivability argument is valid. However, both its premisses are problematic. They are unclear as stated, and controversial even when clarified. A key question is how we should understand ‘conceivable’ in this context.
zombies
https://plato.stanford.edu/entries/zombies/
Many philosophers are willing to concede that zombies are conceivable in some sense (e.g. Hill 1997; Hill and McLaughlin 1999; Loar 1999; Yablo 1999). However, that sense is sometimes quite broad. For example, a claim that ‘there are no substantive a priori ties between the concept of pain and the concept of C-fiber stimulation’ has been backed up by the point that ‘it is in principle possible to master either of these concepts fully without having mastered the other’ (Hill 1997, 76). By that standard, though, it would be conceivable that the ratio of a circle’s circumference to its diameter is a rational number, when it isn’t. If conceivability in that sense entailed possibility, it would be both possible and impossible for the ratio to be rational; which would make such conceivability useless for the purposes of the conceivability argument. So understood, premiss (1) of the argument would be easy to swallow; but (2) would have to be rejected. Evidently, the lower the threshold for conceivability, the easier it is to accept (1) — but the harder it is to accept (2). So the kind of conceivability invoked in premisses (1) and (2) needs to be strongly constrained. A common and useful definition, which will be followed here, is: cannot be known a priori to be false; so A is conceivable if and only if not-A cannot be ruled out a priori. (For sophistication of these and related ideas see Chalmers 1999, 477; 2002; 2007; 2010; 5.1 below.)
zombies
https://plato.stanford.edu/entries/zombies/
Joseph Levine discusses a version of the conceivability argument in his 2001. He views the conceivability of zombies as ‘the principal manifestation of the explanatory gap’ (79). What creates this gap, in his view, is the epistemological problem of explaining how the phenomenal is related to the physical. He sees no way to solve this problem, and thinks it remains even if zombies are impossible.
zombies
https://plato.stanford.edu/entries/zombies/
Campbell, Copeland and Deng 2017 argue that, quite generally, for any conceivability argument there is a corresponding ‘mirror argument’ which can be rejected only at the cost of undermining the main argument, and conclude that all conceivability arguments are ‘logically bankrupt’.
zombies
https://plato.stanford.edu/entries/zombies/
We now face two key questions: Are zombies conceivable in the sense explained? If they are conceivable, does it follow that they are possible? Only if the answer to both questions is yes will the conceivability argument succeed. We can take them in that order.
zombies
https://plato.stanford.edu/entries/zombies/
Those who exploited the zombie idea in the 1970s typically assumed without argument that zombies are not just conceivable but possible (e. g. Campbell 1970, Nagel 1970). When Chalmers reactivated the idea, he found the conceivability of zombies ‘obvious’, remarking that ‘it certainly seems that a coherent situation is described; I can discern no contradiction in the description’ (1996, p. 96). However, he also recognized that this intuition cannot be relied on. The nature of conscious experience is after all hard to understand: what strikes some people as obviously possible could still turn out to harbour hidden contradictions (Nagel 1998; Stoljar 2001). Clearly, those who maintain that zombies are conceivable must provide justification, recognizing that, being an epistemic claim dependent on our cognitive abilities, it is defeasible.
zombies
https://plato.stanford.edu/entries/zombies/
Kirk (1974a, 1974b) attempted to provide such justification, in the form of arguments intended to show that zombies are possible (hence conceivable). However, they fall well short of their target, depending on much the same cluster of intuitions as the original idea. Chalmers (1996) presented a series of five arguments against the view that there is an a priori entailment from physical facts to mental facts. Each argument would directly or indirectly reinforce the intuitive appeal of the zombie idea. The first will be considered shortly; the other four appeal respectively to the alleged possibility of ‘inverted spectrum’ without physical difference (see inverted qualia); the alleged impossibility of learning about conscious experience on the basis of purely physical information; Jackson’s (1982) ‘knowledge argument’ (related to the last); and what Chalmers calls ‘the absence of analysis’: the point being that his opponents ‘will have to give us some idea of how the existence of consciousness might be entailed by the physical facts’, when ‘any attempt to demonstrate such an entailment is doomed to failure’ (1996, p. 104).
zombies
https://plato.stanford.edu/entries/zombies/
His first argument goes roughly as follows. Suppose a population of tiny people disable your brain and replicate its functions themselves, while keeping the rest of your body in working order (see Block 1980a); each homunculus uses a cell phone to perform the signal-receiving and -transmitting functions of an individual neuron. Would such a system be conscious? Intuitively one may be inclined to say not. Some, notably functionalists, bite the bullet and answer yes. However, the argument does not depend on assuming that the homunculus-head would not be conscious. It depends only on the assumption that its not being conscious is conceivable — which many people find reasonable. In Chalmers’s words, all that matters here is that when we say the system might lack consciousness, ‘a meaningful possibility is being expressed, and it is an open question whether consciousness arises or not’ (1996, p. 97). If he is right, then conceivably the system is not conscious. In that case it is already very much like a zombie, the only difference being that it has little people where a zombie has neurons. And why should that make a difference to whether the situation is conceivable? Why should switching from homunculi to neurons necessarily switch on the light of consciousness? (For doubts about the assumption that it is conceivable that the homunculus-head lacks consciousness, see e.g. Loar 1990/1997, pp. 613f.)
zombies
https://plato.stanford.edu/entries/zombies/
Other considerations favoring the conceivability of zombies can be found in Block (1995, 2002); Levine (2001); Searle (1992). Chalmers (2010) develops his defense further; see 5.1 below.
zombies
https://plato.stanford.edu/entries/zombies/
Although in the past it was quite widely accepted that zombies are conceivable, skepticism has been growing. Before considering some direct attacks on the idea, let us briefly recall three views which once seemed to support the claim that we can know a priori that dualism is false — hence, on reasonable assumptions, that zombies are inconceivable.
zombies
https://plato.stanford.edu/entries/zombies/
The first is verificationism, according to which a (declarative) sentence is meaningful just in case its truth or falsity can be verified. This entails that unverifiable sentences are literally meaningless, so that no metaphysical claim according to which unobservable nonphysical items exist can be true. However, since our ability to think and talk about our experiences is itself a problem for verificationism, to presuppose this view when attacking the zombie idea would beg the question. The second view appeals to Wittgenstein’s private language argument. Although not crudely verificationistic, it depends on the assumption that in order for words to be meaningful, their use must be open to public checking. But since this checkability assumption, if sound, would prove that we cannot talk about qualia in the ways defenders of the zombie possibility think we can, it too seems question-begging in the present context. According to the third view, behaviorism, there is no more to having mental states than being disposed to behave in certain ways. As a possible basis for attacking the zombie idea, behaviorism is in a similar situation to verificationism and the private language argument. Zombies would satisfy all behavioral conditions for full consciousness, so that if we could know a priori that behaviorism was correct, zombie worlds would be inconceivable for that reason. It seems unlikely, though, that behaviorism can be shown to be correct. (Dennett 1991 defends a position with strong affinities to behaviorism, though it might be better classified as a variety of functionalism).
zombies
https://plato.stanford.edu/entries/zombies/
Functionalism is a much more widely supported approach to the mental. According to it, mental states are not just a matter of behavior and dispositions, but of causal or other functional relations among sensory inputs, internal states, and behavioral outputs. Note that unless the nature of the internal processing is taken into account as well, functionalism falls to most of the usual objections to behaviorism, for example the ‘homunculus-head’ described in the last section; it therefore seems that any plausible functionalism must take account of internal functions not necessarily reflected in behavioral dispositions. Now, since zombies would satisfy all the functional conditions for full consciousness, functionalism entails that zombies are impossible, although it would obviously be question-begging simply to presuppose functionalism when attacking the zombie idea. However, increasingly sophisticated versions of functionalism are being developed, and any arguments for functionalism are a fortiori arguments against the possibility of zombies. (For some defenses of functionalism against zombies see Dennett 1991; 1995; 1999; Kirk 2017; Shoemaker 1999; Tye 2006; 2008; for doubts about functionalism’s capacity to deal with zombies see for example Harnad 1995.)
zombies
https://plato.stanford.edu/entries/zombies/
Apart from broad-front functionalist theories of the mental, there are more narrowly focused attacks on the conceivability of zombies, some of which are noted below.
zombies
https://plato.stanford.edu/entries/zombies/
Can we really imagine zombies? Daniel Dennett thinks those who accept the conceivability of zombies have failed to imagine them thoroughly enough: ‘they invariably underestimate the task of conception (or imagination), and end up imagining something that violates their own definition’ (1995, p. 322. Marcus 2004 makes a related point; see also Woodling 2014). Given his broadly functionalist model of consciousness, he argues, we can see why the ‘putative contrast between zombies and conscious beings is illusory’ (325. See also his 1991; 1999). Consciousness is ‘not a single wonderful separable thing … but a huge complex of many different informational capacities’ (1995, 324. Cottrell 1999 supports this approach).
zombies
https://plato.stanford.edu/entries/zombies/
Zombies’ utterances. Suppose I smell roasting coffee beans and say, ‘Mm! I love that smell!’. Everyone would rightly assume I was talking about my experience. But now suppose my zombie twin produces the same utterance. He too seems to be talking about an experience, but in fact he isn’t because he’s just a zombie. Is he mistaken? Is he lying? Could his utterance somehow be interpreted as true, or is it totally without truth value? Nigel Thomas (1996) argues that ‘any line that zombiphiles take on these questions will get them into serious trouble’.
zombies