All Topics  
Physics (Aristotle)

 

 
   Email Print
   Bookmark   Link
 

 

Physics (Aristotle)
 
 
  Topics Physics (Aristotle) Topic Home

Physics (or "Physica", or "Physicae Auscultationes" meaning "lessons") is a key text in the philosophy of Aristotle
Aristotle

Aristotle was a Greeks philosopher, a student of Plato and teacher of Alexander the Great. He wrote on many subjects, including physics, metaphysics, Poetics , theater, music, logic, rhetoric, politics, government, ethics, biology and zoology....
. It stands at the head of the current Andronichean
Andronicus of Rhodes

Andronicus of Rhodes , was an ancient Greek philosopher from Rhodes who was also the eleventh scholarch of the Peripatetics.He was at the head of the Peripatetic school at Rome, about 58 BC, and was the teacher of Boethus of Sidon, with whom Strabo studied....
 order, the long series of Aristotle's physical, cosmological and biological works, and is foundational to them.






Discussion
Ask a question about 'Physics (Aristotle)'
Start a new discussion about 'Physics (Aristotle)'
Answer questions from other users
Full Discussion Forum



Encyclopedia


Aristotle Physica Page 1
Physics (or "Physica", or "Physicae Auscultationes" meaning "lessons") is a key text in the philosophy of Aristotle
Aristotle

Aristotle was a Greeks philosopher, a student of Plato and teacher of Alexander the Great. He wrote on many subjects, including physics, metaphysics, Poetics , theater, music, logic, rhetoric, politics, government, ethics, biology and zoology....
. It stands at the head of the current Andronichean
Andronicus of Rhodes

Andronicus of Rhodes , was an ancient Greek philosopher from Rhodes who was also the eleventh scholarch of the Peripatetics.He was at the head of the Peripatetic school at Rome, about 58 BC, and was the teacher of Boethus of Sidon, with whom Strabo studied....
 order, the long series of Aristotle's physical, cosmological and biological works, and is foundational to them. The work is a collection of treatises or lessons that deals with the most general (philosophical) principles of moving things, both living and non-living, rather than physical theories (in the modern sense) or investigations of the particular contents of the universe. It establishes the basis for any scientist of any age to study the world of change. Change, or movement, or motion (kinesis) is the chief subject of the work. The ancient Greek title of these treatises——meant "the [writings] on nature" or "natural philosophy
Natural philosophy

Natural philosophy or the philosophy of nature , is a term applied to the Objectivity study of nature and the physical universe that was dominant before the development of modern science....
".

Books

The Physics is composed of 8 books.

Book I

Book I discusses the scientist's approach to nature and the world of changing things and the doctrines of the presocratic natural philosophers, Parmenides
Parmenides

Parmenides of Elea was an ancient Greek philosopher born in Elea, a Greek city on the southern coast of Italy. He was the founder of the Eleatic school of philosophy....
 in particular. Topics include: remarks on method, a discussion of how some ancestors viewed nature, and the basic elements of change. Change elements include: a property (privation), which is overcome by its opposite (form), with both of them belonging to a subject (substrate: matter in substantial change; substance in accidental change) which persists through the change.

Book II

Book II introduces the term "nature" (Gr. physis) as "nature is a source or cause of being moved and of being at rest in that to which it belongs primarily" (1.192b21). Thus, those entities are natural which are capable of starting to move, e.g. growing, acquiring qualities, displacing themselves, and finally being born and dying. He contrasts natural things with the artificial: artificial things can move also, but they move according to what they are made of, not according to what they are (i.e., any wholeness of their being). The classic example is a wooden bed: if it were buried and somehow sprouted as a tree, it would be according to what it is made of, not what it is. Aristotle contrasts two senses of nature: nature as matter and nature as form or definition.

In chapter 3, Aristotle presents his theory of the four causes
Aristotle

Aristotle was a Greeks philosopher, a student of Plato and teacher of Alexander the Great. He wrote on many subjects, including physics, metaphysics, Poetics , theater, music, logic, rhetoric, politics, government, ethics, biology and zoology....
 (material, efficient, formal, and final). Of particular importance is the final cause or purpose (telos
Telos (philosophy)

A telos is an end or purpose, in a fairly constrained sense used by philosophers such as Aristotle. It is the root of the term "teleology," roughly the study of purposiveness, or the study of objects with a view to their aims, purposes, or intentions....
). He contrasts purpose with the way in which nature doesn't usually work, chance (or luck), discussed in chapters 4, 5, and 6. Something happens by chance when all the lines of causality converge without that convergence being purposefully chosen, and produce a result similar to the teleologically
Teleology

Teleology is the philosophy study of design and purpose. A teleological school of thought is one that holds all things to be designed for or directed toward a final result, that there is an inherent purpose or final cause for all that exists....
 caused one. Chance works in the actions of humans (tuche) and in unreasoning agents (automaton).

In chapters 7 through 9, Aristotle returns to the discussion of nature. With the enrichment of the preceding four chapters, he concludes that nature acts for an end, and he discusses the way that necessity is present in natural things.

Book III

Book III begins with the controversial definition of change based on Aristotle's notions of potentiality and actuality
Potentiality and actuality (Aristotle)

The theory of Potentiality and Actuality is one of the central themes of Aristotle's philosophy and metaphysics. With these two notions, Aristotle intends to provide a structure for the comprehension of reality....
. Change, he says, is actualization of a thing's ability insofar as it is able.

The rest of the book (chapters 4-8) discusses the infinite (aperon, the unlimited). He distinguishes between the infinite by addition and the infinite by division, and concludes that the infinite only exists in potency and never actually: "It is not what has nothing outside it that is infinite, but what always has something outside it." (6.206b33-207a1-2)

Book IV

Book IV discusses the preconditions of motion: place (topos, chapters 1-5), void (chapters 6-9), and time (kronos, chapters 10-14). The book starts by distinguishing the various ways a thing can "be in" another. He likens place to an immobile container or vessel: "the innermost motionless boundary of what contains" is the primary place of a body (4.212a20). Unlike space, which is a volume co-existent with a body, place is a boundary or surface.

He teaches that, contrary to the Atomists and others, a void is not only unnecessary, but leads to contradictions, e.g., making locomotion impossible.

Time is a constant attribute of movements and, Aristotle thinks, does not exist on its own but is relative to the motions of things. Time is defined as "the number of movement in respect of before and after", so it cannot exist without succession; but he also seems to say that to exist time requires the presence of a soul capable of "numbering" the movement.

Books V and VI

Books V and VI deal with how motion occurs. Book V classifies four species of movement, depending on where the opposites are located. Movement categories include quantity (e.g. a change in dimensions, from great to small), quality (as for colors: from pale to dark), place (local movements generally go from up downwards and vice versa), or, more controversially, substance. In fact, substances do not have opposites, so it is inappropriate to say that something properly becomes, from not-man, man: generation and corruption
On Generation and Corruption

On Generation and Corruption , , also known as On Coming to Be and Passing Away) is a treatise by Aristotle. Like many of his texts, it is both scientific and philosophic ....
 are not kinesis in the full sense.

Book VI discusses how a changing thing can reach the opposite state, if it has to pass through infinite intermediate stages. It investigates by rational and logical arguments the notions of continuity and division, establishing that change—and, consequently, time and place—are not divisible into indivisible parts; they are not mathematically discrete
Discrete mathematics

Discrete mathematics, also called finite mathematics, is the study of mathematical structures that are fundamentally discrete in the sense that its objects can assume only distinct, separate values, rather than a values on a continuum ....
 but continuous, that is, infinitely divisible (in other words, that you cannot build up a continuum out of discrete or indivisible points or moments). Among other things, this implies that there can be no definite (indivisible) moment when a motion begins. This discussion, together with that of speed and the different behavior of the four different species of motion, eventually helps Aristotle answer the famous paradoxes
Zeno's paradoxes

Zeno's paradoxes are a set of problems generally thought to have been devised by Zeno of Elea to support Parmenides's doctrine that "all is one" and that, contrary to the evidence of our senses, the belief in plurality and change is mistaken, and in particular that motion is nothing but an illusion....
 of Zeno
Zeno of Elea

Zeno of Velia was a pre-Socratic Greek philosopher of southern Italy and a member of the Eleatic School founded by Parmenides. Aristotle called him the inventor of the dialectic....
, which purport to show the absurdity of motion's existence.

Book VII

Book VII briefly deals with the relationship of the moved to his mover, which Aristotle describes in substantial divergence with Plato
Plato

Plato , was a Classical Greece Greeks philosopher, mathematician, writer of philosophical dialogues, and founder of the Platonic Academy in Ancient Athens, the first institution of higher learning in the western world....
's theory of the soul as capable of setting itself in motion (Laws
Laws (dialogue)

The Laws is Plato's last and longest dialogue. The question asked at the beginning is not "What is law?" as one would expect. That is the question of the Minos ....
 book X, Phaedrus, Phaedo). Everything which moves is moved by another. He then tries to correlate the species of motion and their speeds, with the local change (locomotion, phorà) as the most fundamental to which the others can be reduced.

Book VII has also come to us in an alternative version, not included in the Bekker edition.

Book VIII

Book VIII (which occupies almost a fourth of the entire Physics, and probably constituted originally an independent course of lessons) discusses two main topics, though with a wide deployment of arguments: the time limits of the universe, and the existence of a Prime Mover
Cosmological argument

The cosmological argument is an argument for the existence of a First Cause to the universe, and by extension is often used as an argument for the existence of God....
 — eternal, indivisible, without parts and without magnitude. Isn't the universe eternal, has it had a beginning, will it ever end? Aristotle's response, as a Greek, could hardly be affirmative, never having been told of a creatio ex nihilo (for the first appearance of this concept in philosophy, see St. Augustine); but he also has philosophical reasons for denying that motion didn't exist all along, on the grounds of the theory presented in the earlier books of the Physics. Eternity of motion is also confirmed by the existence of a substance which is different from all the others in lacking matter; being pure form, it is also in an eternal actuality, not being imperfect in any respect; hence needing not to move. This is demonstrated by describing the celestial bodies thus: the first things to be moved must undergo an infinite, single and continuous movement, that is, circular. This is not caused by any contact but (integrating the view contained in the Metaphysics, bk. XII
Aristotelian view of God

File:Francesco Hayez 001.jpgThe Aristotelian and Neo-Aristotelian views of God have been very influential in Western intellectual history....
) by love and aspiration.

Bibliography

Die Aristotelische Physik, W. Wieland, 1962, 2nd revised edition 1970.

English translations of the Physics


  • Glen Coughlin, Physics, or, Natural Hearing (South Bend: St. Augustine’s Press, 2005).
  • Robin Waterfield, Physics, ed. David Bostock (Oxford University Press, 1999).
  • Joe Sachs, Aristotle's Physics: A Guided Study (New Brunswick: Rutgers University Press, 1995).
  • Daniel W. Graham, Physics: Book VIII (Oxford University Press, 1999).
  • William Charlton, Physics: Books I and II (Oxford University Press, 1984).
  • Edward Hussey, Physics: Books III and IV (Oxford University Press, 1983).
  • Richard Hope, Aristotle's Physics : with an Analytical Index of Technical Terms (Lincoln: University of Nebraska Press, 1961).
  • Charles Glenn Wallis, Lectures on the Science of Natures, books I-IV (Annapolis : The St. John's bookstore, 1940). OCLC 37790727
  • Hippocrates G. Apostle, Physics (Oxford, 1936) (Grinnell, Iowa: The Peripatetic Press, 1980).
  • W.D. Ross, Aristotle's Physics. A Revised Text with Introd. and Commentary by W.D. Ross (New York: Clarendon Press, 1936). [not so much a translation, but revision of the Greek text, with English paraphrase]
  • R.P. Hardie and R.K. Gaye, Physica (Oxford: The Clarendon Press, 1930).
    • (divided into books)
    • (divided into books; not all are complete)
    • (one file)
    • (divided into pages)
  • P.H. Wicksteed and F.M. Cornford, The Physics (2 vols., 1929) (Cambridge, Massachusetts: Harvard University Press "Loeb Classical Library," 1980).
  • Thomas Taylor, The Physics or Physical Auscultation of Aristotle: with Copious Notes in Which Is Given the Substance of the Invaluable Commentaries of Simplicius (1806) (republished by Prometheus Trust, 2000) ISBN 1898910189


Classical and medieval commentaries on the Physics


  • Aquinas, Thomas, Commentary on Aristotle’s Physics, trans. Richard J. Blackwell, Richard J. Spath, and W. Edmund Thirlkel (Notre Dame, Indiana: Dumb Ox Books, 1999).
  • Averroes, Averroes’ Questions in Physics, trans. Helen Tunik Goldstein. (Boston : Kluwer Academic Publishers, 1991).
  • Ockham, William, Exposition of Aristotle's Physics in William of Ockham: Philosophical Writings, trans. Philotheus Boehner (Indianapolis, Indiana: Hackett, 1990).
  • Philoponus, John, On Aristotle’s Physics, trans. (various) (Ithaca: Cornell University Press, Ancient Commentators on Aristotle series, 1993–2006).
  • Simplicius, On Aristotle’s Physics, trans. (various) (Ithaca: Cornell University Press, Ancient Commentators on Aristotle series, 1993–2006).


Modern commentaries and monographs

  • Bostock, David, Space, Time, Matter, and Form: Essays on Aristotle's Physics (Oxford University Press, 2006).
  • Coope, Ursula, Time for Aristotle: Physics IV.10–14 (Oxford: Clarendon Press, 2005).
  • Gerson, Lloyd P., ed., Aristotle: Critical Assessments, vol. 2: Physics, Cosmology and Biology (New York: Routledge, 1999). Collects these papers:
    • Bas C. van Fraassen, "A Re-examination of Aristotle's Philosophy of Science," Dialogue 19 (1980), 20-45.
    • Alan Code, "The Persistence of Aristotelian Matter," Philosophical Studies 29 (1976), 357-67.
    • Aryeh Kosman, "Aristotle's Definiton of Motion," Phronesis 14 (1969), 40-62.
    • Daniel W. Graham, "Aristotle's Definiton of Motion," Ancient Philosophy 8 (1988), 209-15.
    • Sheldon M. Cohen, "Aristotle on Elemental Motion," Phronesis 39 (1994), 150-9.
    • Michael Bradie and Fred D. Miller, Jr., "Teleology and Natural Necessity in Aristotle," History of Philosophy Quarterly 1, 2 (1984), 133-46.
    • Susan Sauve Meyer, "Aristotle, Teleology, and Reduction," The Philosophical Review 101, 4 (1992), 791-825.
    • James G. Lennox, "Aristotle on Chance," Archiv fur Geschichte der Philosophie 66 (1984), 52-60.
    • Mary Louise Gill, "Aristotle's Theory of Causal Action in Physics III 3," Phronesis 25 (1980), 129-47.
    • David Bostock, "Aristotle's Account of Time," Phronesis 25 (1980), 148-69.
    • David Bostock, "Aristotle on the Transmutation of the Elements in De Generatione et Corruptione 1.1–4," Oxford Studies in Ancient Philosophy 13 (1995), 217-29.
    • Cynthia A. Freeland, "Scientific Explanation and Empirical Data in Aristotle's Meterology," Oxford Studies in Ancient Philosophy 8 (1990), 67-102.
    • Mohan Matthen and R.J. Hankinson, "Aristotle's Universe: Its Form and Matter," Synthese 96 (1993), 417-35.
    • David Charles, "Aristotle on Substance, Essence and Biological Kinds," Proceedings of the Boston Area Colloquium in Ancient Philosophy 7 (1991), 227-61.
    • Herbert Granger, "Aristotle on Genus and Differentia," Journal of the History of Philosophy 22 (1984), 1-23.
    • Mohan Matthen, "The Four Causes in Aristotle's Embryology," Apeiron 22 (1989), 159-79.
    • Alan Code, "Soul as Efficient Cause in Aristotle's Embryology," Philosophical Topics 15, 2 (1987), 51-59.
    • David J. Depew, "Human and Other Political Animals in Aristotle's History of Animals," Phronesis 40 (1995), 156-81.
    • Daryl McGowan Tress, "The Metaphysical Science of Aristotle's Generation of Animals and its Feminist Critics," Review of Metaphysics 46 (1992), 307-41.
    • Rosamond Kent Sprague, "Plants as Aristotelian Substances," Illinois Classical Studies 56 (1991), 221-9.
  • Judson, Lindsay, ed., Aristotle’s Physics: a collection of essays (New York : Oxford University Press, 1991).
  • Kouremenos, Theokritos, The proportions in Aristotle's Phys.7.5 (Franz Steiner Verlag, 2002). ISBN 351508178X
  • Lang, Helen S., Aristotle’s Physics and its Medieval Varieties (Albany: State University of New York, 1992).
  • Lang, Helen S., The Order of Nature in Aristotle's Physics: Place and the Elements (Cambridge University Press, 1998).
  • Maritain, Jacques, Science and Wisdom, trans. Bernard Wall (New York: Charles Scribner’s Sons, 1954).
  • Morison, Benjamin, On Location: Aristotle's Concept of Place (Oxford University Press, 2002).
  • Reizler, Kurt, Physics and Reality (New Haven: Yale University Press, 1940).
  • Sachs, Joe, “,” Internet Encyclopedia of Philosophy, 2006. (accessed 18 October 2008).
  • Solmsen, Fredrich, Aristotle's System of the Physical World: A Comparison with His Predecessors (Ithaca, NY: Cornell University Press, 1960).
  • Smith, Vincent Edward, The General Science of Nature (Milwaukee: The Bruce Publishing Company, 1958).
  • Wardy, Robert, The Chain of Change: A study of Aristotle's Physics VII, (Cmabridge University Press, 1990).


Journal articles

  • Kosman, L. A. “Aristotle’s Definition of Motion,” Phronesis 14, 1969, 40-62.
  • Machamer, Peter K., “Aristotle on Natural Place and Motion,” Isis 69:3 (Sept. 1978), 377–387.


External links