Matter (philosophy)

Matter is the substrate from which physical existence is derived, remaining more or less constant amid changes. The word "matter" is derived from the Latin word māteria, meaning "wood", or “timber”, in the sense "material", as distinct from "mind" or "form".[1] The image of wood came to Latin as a calque from the Greek philosophical usage of hyle (ὕλη).

Ancient Greek philosophy

In ancient Greek philosophy, arche (ἀρχή) is the beginning or the first principle of the world. Thales of Miletus claimed that the first principle of all things is water. His theory was supported by the observation of moisture throughout the world and coincided with his theory that the earth floated on water.

Thales's theory was refuted by his pupil and successor, Anaximander. Anaximander noted that water could not be the arche because it could not give rise to its opposite, fire. Anaximander claimed that none of the elements (earth, fire, air, water) could be arche for the same reason. Instead, he proposed the existence of the apeiron, an indefinite substance from which all things are born and to which all things will return.

Anaximenes, Anaximander's pupil, advanced yet another theory. He returns to the elemental theory, but this time posits air, rather than water, as the arche. Anaximenes suggests that all is made from air through either rarefication or condensation (thinning or thickening). Rarefied, air becomes fire; condensed, it becomes first wind, then cloud, water, earth, and stone in order.

Pythagoras of Samos, a mathematician, mystic, and scientist, taught that number, rather than matter, constitutes the true nature of things. He seems to have influenced Socrates' ideal form.

Heraclitus held that all is flux. In such a system there is no need for or possibility of matter. Leucippus held that there exist indivisible particles, atoms, underlying existence.

Empedocles held that there are four elements, from which things are derived, Earth, Water, Fire and Air. Some added a fifth element, the Aether, from which the heavens were derived. Socrates accepted (or at least did not reject) that list, as seen from Plato's Timaeus, which identified the five elements with the Platonic solids. Earth was associated with the cube, air with the octahedron, water with the icosahedron, fire with the tetrahedron, and the heavens with the dodecahedron.

Aristotle, rejecting the atomic theory, instead analyzed the four terrestrial elements with the sense of touch:

  • Air is primarily wet and secondarily hot.
  • Fire is primarily hot and secondarily dry.
  • Earth is primarily dry and secondarily cold.
  • Water is primarily cold and secondarily wet.

He developed Socrates' ideal form into a theory which aimed to explain existence through the composition of matter and form. He conceived of matter as a passive possibility that something might be actualized by an active principle, a substantial form, giving it real existence. The theory of matter and form came to be known as Hylomorphism.

Aristotle's ideas had little impact on the ancient world. The rise of Stoicism represented the return to earlier ideas. Their categories were an attempt to explain all existence without reference to anything incorporeal.

Philo held that matter is the basis of evil.

Plotinus revived the ideas of Plato and Aristotle.

Medieval philosophy

Many Christians, such as Augustine of Hippo, accepted Plotinus as the greatest of the pagan philosophers. Parts of Plotinus' Six Enneads were translated into Arabic as the Theology of Aristotle, leading to a blossoming of Aristotle's philosophy in the Islamic world. This Islamic version of Aristotle eventually reached the University of Paris and the attention of scholastic philosophy, and the work of Thomas Aquinas.

Modern science

From a philosophical viewpoint, the term "matter" still is used to distinguish the material aspects of the universe from those of the spirit.[2] The rise of modern chemistry and physics marked a return to the atomic theories of Leucippus. Quantum physics and special relativity however, complicate the picture through the identification of matter and energy, particle and wave.

gollark: They can just transfer heat to the surroundings.
gollark: Increase power generation by increasing the temperature gradient, or something.
gollark: Maybe *optional* coolant?
gollark: What, so they'll just be magic powerboxes?
gollark: Why would you *cool* a pebble bed reactor with *liquid helium*?

See also

Notes

  1. Oxford English Dictionary: "matter"
  2. Henri Bergson (2004). "Introduction". Matter and Memory (Reprint of edition of 1904 ed.). Courier Dover Publications. ISBN 0-486-43415-X.

Further reading

  • Henry Laycock, Theories of matter (essay; PDF)
  • Gideon Manning (ed.), Matter and Form in Early Modern Science and Philosophy, Leiden, Brill, 2012.
  • Ernan Mc Mullin (ed.), The Concept of Matter in Greek and Medieval Philosophy, Notre Dame, University of Notre Dame Press, 1965.
  • Ernan Mc Mullin (ed.), The Concept of Matter in Modern Philosophy, Notre Dame, University of Notre Dame Press, 1978.
  • The dictionary definition of matter at Wiktionary
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