Monday 14 September 2020

The classical elements

Earth; Fire; Air; Water. Long ago, Empedocles theorised that four elements lived together in harmony. Then everything changed when Democritus attacked. Only Aristotle could stop him. But when the world needed it most, modern chemistry was still several thousand years from being invented ...

Empedocles’ poems don’t survive. But Aristotle’s Physics and On coming to be and passing away does. As a result, a number of people have got it into their heads that Aristotle was reponsible for the idea of the classical elements. Here’s a snippet from a 2002 lecture by a Florida State physics professor about ‘Aristotelian’ physics:

  • everything on Earth made of (mixture of) four elements: earth, water, air, fire
  • every element has a “natural place”:
    • earth at center of Earth,
    • water above earth,
    • air above water,
    • fire above air;
  • celestial bodies (stars, planets, Moon) made from fifth element, “ether”, which also fills space between them; ether is perfect, incorruptible, weightless; ...

This slide has ended up being cited by the Wikipedia article on ‘Aristotelian physics’ as the supreme authority on the classical elements.

Now, it isn’t completely made up — in the limited sense that some people, including even some specialists, do claim some of these things.

For example Werner Jaeger (1948), Aristotle. Fundamentals of the history of his development, Oxford, 143ff. One report on a lost Aristotelean work refers to the elements earth, water, and air, then refers to the fourth as Latin ardor. Jaeger confidently translates the word as ‘aether’ (149).

But you won’t find any of it in Aristotle himself.

  • Aristotle never says that all matter is made of (a mixture of) earth, water, air, and fire.
  • He doesn’t talk of elements having a ‘natural place’.
  • He doesn’t add aether as a ‘fifth element’.

The thing about aether is probably the biggest one, because I have seen it repeated in so many places. So let’s just repeat. Aristotle doesn’t treat aether as a fifth element.

Here’s what Aristotle does say.

  • He uses Empedocles’ four elements as categories of material qualities, rather than substances.
  • He also refers to Democritus’ model of matter, which is based on atoms, not elements, and which allows an unlimited variety of fundamental substances.
  • He accepts and rejects aspects of both models. He suggests that matter is differentiated by the presence or absence of various properties, rather than the substances it’s made of; and he’s willing to go along with Anaxagoras’ idea that every homogeneous material is an element, to the extent that each homogeneous material corresponds to a unique set of properties.
  • He talks of materials having a natural motion depending on their properties: hot things (including fire and air) tend to rise, that is, move away from the centre of the earth, while cold things (including earth and water) tend to move towards the centre.
  • And, in a discussion that has nothing to do with elements, he does say that the sky uniquely has a circular natural motion — the sky as a single thing, that is, not individual heavenly bodies — and he borrows the ancient name ‘aether’ to refer to this unique motion.

Now a lot of this is wrong of course. Atoms are real; natural motion isn’t a thing, but buoyancy is; it’s the earth that’s rotating, not the sky. But that’s no excuse for misrepresenting Aristotle. His theory of matter is about four physical properties, not about four substances. And nowhere does he declare a canon of five elements, with aether as the fifth.

He even calls Empedocles’ model self-contradictory. Empedocles’ elements are supposed to be distinct, fundamental substances; yet Water evaporates into Air, condensation from Air produces Water.

So Empedocles evidently contradicts the observed phenomena, and contradicts himself too. For he says that none of the elements can emerge from another, but that everything is made of these; but at the same time, once he gathers all of nature (except Strife) into the One, he says that each of the elements is derived from the One.
The early Greek flat-earth cosmology as found in Homer, centuries before Aristotle. Thick, foggy Air is at ground level; above it is the clear Aether, where it is hard to breathe and there are no clouds. Elements played no role in this cosmology.

Aether

A second-hand report of one of Aristotle’s lost works makes it clear that he thought of heavenly bodies as ‘fiery’, and not made of a fifth element.

Therefore, because the Fire of the sun is similar to those fires that exist in the bodies of animate creatures, it must be that the sun is also animate ... So since the origin of some creatures lies in Earth, others in Water, and others in Air, Aristotle thinks it absurd to imagine that no animal is generated in that element which is most suited to generating animate things.

Cicero (our source) goes on to talk about how the ‘stars occupy the aetherial region, which is extremely thin’. Various modern scholars have taken that as meaning that Aristotle, too, linked aether to the usual four elements. But, again, it’s indirect. And even Cicero doesn’t cast aether as the fifth member of a set of five. He refers to ‘the aetherial region’ (aetherium locum) as a location, not a substance. He talks of stars being generated there: that is, Cicero is actually thinking of ‘the aether’ as a place occupied by Fire, but only very sparsely, until it generates stars.

Aether isn’t a distinct element: it’s a hangover from archaic flat-earth cosmologies. For example in Homer, thick misty Air (aēr) is at ground level, and clear, bright Aether (aithēr) is above it, filling the heavens. On mountain-tops the air is thinner, and you find yourself above the clouds: that’s supposedly where you get close to the aether.

The elements in Plato

Aristotle isn’t our earliest source on Empedocles’ elements. There’s an earlier report in Plato’s Timaeus. And it’s Plato, I think, that has prompted some modern readers to think in terms of a group of five.

The passage is hard to interpret (like most of the Timaeus): Plato could be misconstrued as saying that celestial bodies are made of a fifth element. What he really seems to be talking about is the shape of the universe as a whole, not the material that stars are made of.

Aether does come up a bit later, in passing. But Plato makes it very clear that it isn’t a separate element. He treats aether as a variety of Air, in the same way that flames, firelight, and glowing embers are all varieties of Fire (Timaeus 58c-d).

The context is that Plato is trying to combine two theories of matter: Empedocles’ model of four elements, and Democritus’ atomic theory. Plato also injects his own fondness for ideal abstractions. He proposes that each of the four elements is made of a single type of atom, and the four atom types have the shapes of the ‘Platonic solids’. There are five possible Platonic solids, so according to Plato’s perfectionist logic, that implies there must be some fifth thing in the material world that corresponds to the fifth solid, the dodecahedron.

The ‘Platonic solids’: the regular tetrahedron (4 sides), cube (6), octahedron (8), dodecahedron (12), and icosahedron (20). These solids have a number of unique properties that no other solid can have. Each has equilateral faces all the same shape (equilateral triangles, squares, or pentagons); every vertex coincides with the surface of a circumscribed sphere; the centre of every face coincides with the surface of an inscribed sphere.

Of these solids, Plato decides the cube is the most ‘immobile’ one, so that’s Earth. For the others, Fire is the lightest and smallest, made of tetrahedron-shaped atoms; Water is the largest of the triangle-faced solids, the icosahedron; Air is in between, the octahedron.

And, since there was still one more structure — the fifth — God applied it to the whole, and decorated it with life.

‘The whole’ must mean the cosmos, the sky. But not the substance of the sky. In the last bit, ‘decorated it with life’, the Greek word used, diazōgraphōn, is probably meant to evoke the twelve constellations of the zodiac around the ecliptic. The zodiac isn’t arranged in a dodecahedral shape, but perhaps the theme of twelve-ness was enough to sustain Plato’s wordplay.

For Plato, it seems, the dodecahedron is the shape of the cosmos. It looks like the idea is that a dodecahedron is the shape that most closely approximates a sphere — the sphere of the sky.

Surprising but true. Intuitively, you’d imagine an icosahedron would be closer to spherical, because it has more polygons. It turns out that pentagon-shaped faces are more of an advantage. The dodecahedron is better at filling a sphere. If you’re an ancient Greek and you want to calculate the volume of a sphere, but you don’t know the value of pi, and so you resort to the method of exhaustion that was popular in classical Greek geometry, then a dodecahedron provides closer bounds than any other solid.

Solid Number of faces Corresponding phenomenon (Tim. 53c-56e) Volume as proportion of sphere
tetrahedron 4 Fire 12.3%
cube 6 Earth 36.7%
octahedron 8 Air 31.8%
dodecahedron 12 universe 66.5%
icosahedron 20 Water 60.5%
A cube, all of its corners touching a sphere from the inside, fills a bit over a third of the sphere; a dodecahedron fills just under two thirds.

So, in Plato’s model, the dodecahedron is the shape of the universe; the other four solids are the shapes of the four kinds of atoms. Don’t go taking this seriously, of course! Plato liked maths, but he was definitely no empiricist. This whole imaginary concoction is driven by his obsession with the idea that real phenomena are manifestations of ideal abstractions.

Aristotle’s theory of matter

Aristotle is more logical, albeit with the same limitations on his knowledge. Given that he knew nothing about atoms and elements as we understand them nowadays, he still makes a reasonable amount of sense, so far as he goes.

For Empedocles says that there are four physical (elements); or a total of six, including those (elements) that cause motion (i.e. Love and Strife). Anaxagoras and Leucippus and Democritus, on the other hand, say there are infinitely many. The first (Anaxagoras) treats homogeneous things as elements, like Bone, Flesh, and Marrow, and every substance where a portion is synonymous with the whole. Democritus and Leucippus, however, say that these (homogeneous) things consist of indivisible particles, and that they are infinite in number and in their shapes; while substances differ from one another depending on the elements they consist of and their composition and arrangement.

Anaxagoras’ followers apparently take a stance opposed to that of Empedocles' followers. For Empedocles says that there are four elements — Fire, Water, Air, and Earth — and that these are the substances that are simple, rather than flesh and bone and other homogeneous substances. But Anaxagoras’ followers say that it is these homogeneous substances that are simple elements, while Earth, Fire, Water, and Air are compounds.

Aristotle rejects Democritus’ atomic theory, but he also rejects Empedocles. He accepts the four elements as empirical phenomena, but he rejects the idea that everything is made of them. He doesn’t reject Anaxagoras’ ideas about homogeneous substances: it seems that’s where his sympathies lie.

For Aristotle, Empedocles’ elements are emergent. They’re derived from combinations of properties: hot, cold, dry, and wet. Apply these properties to raw matter — what he calls hylē (literally ‘wood’) — and you get stuff that approximates the four elements. If something is hot and dry then it’s fiery, if it’s cold and wet then it’s watery. The properties come first.

  Hot Cold
Wet Air Water
Dry Fire Earth

He quickly gets into trouble, though. Aristotle questions whether these binary properties denote the presence vs. absence of a quality: so hot = ‘with heat present’, cold = ‘without heat’, and so on.

But someone might well be puzzled about a simple absence, and whether it is one of two terms in an opposition. For example, is it that Earth and other massive matter denotes the absence of a quality (heat), while Fire and rising substances denote the presence of that quality? Or is it that Earth also denotes a presence, while the absence denotes raw substance — the hylē of both Fire and Earth alike? And is the hylē of each of them different? For then they could not come to be out of one another, that is, out of their opposites. For the oppositions are manifested in these things: Fire, Earth, Water, Air.

This is where Aristotle’s lack of knowledge gets him tied in knots: this passage makes little sense to a modern reader. It’s obvious to us, with an understanding of chemical reactions and thermodynamics, that these are actually very bad questions. We know that physical properties are determined by heat and pressure, not by irreducible characteristics like whether ‘wetness’ is present.

This business of thinking about presence and absence of qualities misleads Aristotle before he can even begin. I think it’s still a huge improvement on Plato, with his fantasies about four species of polyhedral atom. But it isn’t like you’ll actually learn anything about chemistry from Aristotle.

3 comments:

  1. Reading the "De Anima" of Aristotle in Greek as an undergraduate was a major inspiration of all my future work as a classicist.

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  2. I know you have written two articles "Who preserved Greek literature" but I'd like to know

    1) what's the history of whop knew when Aristotle's On the Heavens?

    2) Is there some resource/reference where one who's curious could see for each of "old books" "who preserved it" listing the copies and which part of the world was aware of what?

    Exactly because I understand that the "popular" knowledge is vastly flawed on these topics, and I think all this is really improtant for us to understand what happened in the last 2500 years.

    Thanks in advance!

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    Replies
    1. I can't give a full timeline: all I can do is check the usual reference works. Simplicius, in the 6th century, wrote a commentary on On the heavens; the earliest extant manuscript dates to the 10th century, Parisinus gr. 1853; in the 11th century Avicenna and al Ghazali both knew it well, and a century later Averroes wrote extensively about Aristotle's ideas in that work.

      The best general resource on manuscripts and editions of ancient Greco-Roman texts is the New Pauly published by Brill, Supplements I, Volume 2, which is a Dictionary of Greek and Latin Authors and Texts.

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