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PART THREE
Part 1
We have already discussed the first heaven
and its parts, the moving stars within it,
the matter of which these are composed and
their bodily constitution, and we have also
shown that they are ungenerated and indestructible.
Now things that we call natural are either
substances or functions and attributes of
substances. As substances I class the simple
bodies-fire, earth, and the other terms of
the series-and all things composed of them;
for example, the heaven as a whole and its
parts, animals, again, and plants and their
parts. By attributes and functions I mean
the movements of these and of all other things
in which they have power in themselves to
cause movement, and also their alterations
and reciprocal transformations. It is obvious,
then, that the greater part of the inquiry
into nature concerns bodies: for a natural
substance is either a body or a thing which
cannot come into existence without body and
magnitude. This appears plainly from an analysis
of the character of natural things, and equally
from an inspection of the instances of inquiry
into nature. Since, then, we have spoken
of the primary element, of its bodily constitution,
and of its freedom from destruction and generation,
it remains to speak of the other two. In
speaking of them we shall be obliged also
to inquire into generation and destruction.
For if there is generation anywhere, it must
be in these elements and things composed
of them.
This is indeed the first question we have
to ask: is generation a fact or not? Earlier
speculation was at variance both with itself
and with the views here put forward as to
the true answer to this question. Some removed
generation and destruction from the world
altogether. Nothing that is, they said, is
generated or destroyed, and our conviction
to the contrary is an illusion. So maintained
the school of Melissus and Parmenides. But
however excellent their theories may otherwise
be, anyhow they cannot be held to speak as
students of nature. There may be things not
subject to generation or any kind of movement,
but if so they belong to another and a higher
inquiry than the study of nature. They, however,
had no idea of any form of being other than
the substance of things perceived; and when
they saw, what no one previously had seen,
that there could be no knowledge or wisdom
without some such unchanging entities, they
naturally transferred what was true of them
to things perceived. Others, perhaps intentionally,
maintain precisely the contrary opinion to
this. It has been asserted that everything
in the world was subject to generation and
nothing was ungenerated, but that after being
generated some things remained indestructible
while the rest were again destroyed. This
had been asserted in the first instance by
Hesiod and his followers, but afterwards
outside his circle by the earliest natural
philosophers. But what these thinkers maintained
was that all else has been generated and,
as they said, 'is flowing away, nothing having
any solidity, except one single thing which
persists as the basis of all these transformations.
So we may interpret the statements of Heraclitus
of Ephesus and many others. And some subject
all bodies whatever to generation, by means
of the composition and separation of planes.
Discussion of the other views may be postponed.
But this last theory which composes every
body of planes is, as the most superficial
observation shows, in many respects in plain
contradiction with mathematics. It is, however,
wrong to remove the foundations of a science
unless you can replace them with others more
convincing. And, secondly, the same theory
which composes solids of planes clearly composes
planes of lines and lines of points, so that
a part of a line need not be a line. This
matter has been already considered in our
discussion of movement, where we have shown
that an indivisible length is impossible.
But with respect to natural bodies there
are impossibilities involved in the view
which asserts indivisible lines, which we
may briefly consider at this point. For the
impossible consequences which result from
this view in the mathematical sphere will
reproduce themselves when it is applied to
physical bodies, but there will be difficulties
in physics which are not present in mathematics;
for mathematics deals with an abstract and
physics with a more concrete object. There
are many attributes necessarily present in
physical bodies which are necessarily excluded
by indivisibility; all attributes, in fact,
which are divisible. There can be nothing
divisible in an indivisible thing, but the
attributes of bodies are all divisible in
one of two ways. They are divisible into
kinds, as colour is divided into white and
black, and they are divisible per accidens
when that which has them is divisible. In
this latter sense attributes which are simple
are nevertheless divisible. Attributes of
this kind will serve, therefore, to illustrate
the impossibility of the view. It is impossible,
if two parts of a thing have no weight, that
the two together should have weight. But
either all perceptible bodies or some, such
as earth and water, have weight, as these
thinkers would themselves admit. Now if the
point has no weight, clearly the lines have
not either, and, if they have not, neither
have the planes. Therefore no body has weight.
It is, further, manifest that their point
cannot have weight. For while a heavy thing
may always be heavier than something and
a light thing lighter than something, a thing
which is heavier or lighter than something
need not be itself heavy or light, just as
a large thing is larger than others, but
what is larger is not always large. A thing
which, judged absolutely, is small may none
the less be larger than other things. Whatever,
then, is heavy and also heavier than something
else, must exceed this by something which
is heavy. A heavy thing therefore is always
divisible. But it is common ground that a
point is indivisible. Again, suppose that
what is heavy or weight is a dense body,
and what is light rare. Dense differs from
rare in containing more matter in the same
cubic area. A point, then, if it may be heavy
or light, may be dense or rare. But the dense
is divisible while a point is indivisible.
And if what is heavy must be either hard
or soft, an impossible consequence is easy
to draw. For a thing is soft if its surface
can be pressed in, hard if it cannot; and
if it can be pressed in it is divisible.
Moreover, no weight can consist of parts
not possessing weight. For how, except by
the merest fiction, can they specify the
number and character of the parts which will
produce weight? And, further, when one weight
is greater than another, the difference is
a third weight; from which it will follow
that every indivisible part possesses weight.
For suppose that a body of four points possesses
weight. A body composed of more than four
points will superior in weight to it, a thing
which has weight. But the difference between
weight and weight must be a weight, as the
difference between white and whiter is white.
Here the difference which makes the superior
weight heavier is the single point which
remains when the common number, four, is
subtracted. A single point, therefore, has
weight.
Further, to assume, on the one hand, that
the planes can only be put in linear contact
would be ridiculous. For just as there are
two ways of putting lines together, namely,
end to and side by side, so there must be
two ways of putting planes together. Lines
can be put together so that contact is linear
by laying one along the other, though not
by putting them end to end. But if, similarly,
in putting the lanes together, superficial
contact is allowed as an alternative to linear,
that method will give them bodies which are
not any element nor composed of elements.
Again, if it is the number of planes in a
body that makes one heavier than another,
as the Timaeus explains, clearly the line
and the point will have weight. For the three
cases are, as we said before, analogous.
But if the reason of differences of weight
is not this, but rather the heaviness of
earth and the lightness of fire, then some
of the planes will be light and others heavy
(which involves a similar distinction in
the lines and the points); the earthplane,
I mean, will be heavier than the fire-plane.
In general, the result is either that there
is no magnitude at all, or that all magnitude
could be done away with. For a point is to
a line as a line is to a plane and as a plane
is to a body. Now the various forms in passing
into one another will each be resolved into
its ultimate constituents. It might happen
therefore that nothing existed except points,
and that there was no body at all. A further
consideration is that if time is similarly
constituted, there would be, or might be,
a time at which it was done away with. For
the indivisible now is like a point in a
line. The same consequences follow from composing
the heaven of numbers, as some of the Pythagoreans
do who make all nature out of numbers. For
natural bodies are manifestly endowed with
weight and lightness, but an assemblage of
units can neither be composed to form a body
nor possess weight.
Part 2
The necessity that each of the simple bodies
should have a natural movement may be shown
as follows. They manifestly move, and if
they have no proper movement they must move
by constraint: and the constrained is the
same as the unnatural. Now an unnatural movement
presupposes a natural movement which it contravenes,
and which, however many the unnatural movements,
is always one. For naturally a thing moves
in one way, while its unnatural movements
are manifold. The same may be shown, from
the fact of rest. Rest, also, must either
be constrained or natural, constrained in
a place to which movement was constrained,
natural in a place movement to which was
natural. Now manifestly there is a body which
is at rest at the centre. If then this rest
is natural to it, clearly motion to this
place is natural to it. If, on the other
hand, its rest is constrained, what is hindering
its motion? Something, which is at rest:
but if so, we shall simply repeat the same
argument; and either we shall come to an
ultimate something to which rest where it
is or we shall have an infinite process,
which is impossible. The hindrance to its
movement, then, we will suppose, is a moving
thing-as Empedocles says that it is the vortex
which keeps the earth still-: but in that
case we ask, where would it have moved to
but for the vortex? It could not move infinitely;
for to traverse an infinite is impossible,
and impossibilities do not happen. So the
moving thing must stop somewhere, and there
rest not by constraint but naturally. But
a natural rest proves a natural movement
to the place of rest. Hence Leucippus and
Democritus, who say that the primary bodies
are in perpetual movement in the void or
infinite, may be asked to explain the manner
of their motion and the kind of movement
which is natural to them. For if the various
elements are constrained by one another to
move as they do, each must still have a natural
movement which the constrained contravenes,
and the prime mover must cause motion not
by constraint but naturally. If there is
no ultimate natural cause of movement and
each preceding term in the series is always
moved by constraint, we shall have an infinite
process. The same difficulty is involved
even if it is supposed, as we read in the
Timaeus, that before the ordered world was
made the elements moved without order. Their
movement must have been due either to constraint
or to their nature. And if their movement
was natural, a moment's consideration shows
that there was already an ordered world.
For the prime mover must cause motion in
virtue of its own natural movement, and the
other bodies, moving without constraint,
as they came to rest in their proper places,
would fall into the order in which they now
stand, the heavy bodies moving towards the
centre and the light bodies away from it.
But that is the order of their distribution
in our world. There is a further question,
too, which might be asked. Is it possible
or impossible that bodies in unordered movement
should combine in some cases into combinations
like those of which bodies of nature's composing
are composed, such, I mean, as bones and
flesh? Yet this is what Empedocles asserts
to have occurred under Love. 'Many a head',
says he, 'came to birth without a neck.'
The answer to the view that there are infinite
bodies moving in an infinite is that, if
the cause of movement is single, they must
move with a single motion, and therefore
not without order; and if, on the other hand,
the causes are of infinite variety, their
motions too must be infinitely varied. For
a finite number of causes would produce a
kind of order, since absence of order is
not proved by diversity of direction in motions:
indeed, in the world we know, not all bodies,
but only bodies of the same kind, have a
common goal of movement. Again, disorderly
movement means in reality unnatural movement,
since the order proper to perceptible things
is their nature. And there is also absurdity
and impossibility in the notion that the
disorderly movement is infinitely continued.
For the nature of things is the nature which
most of them possess for most of the time.
Thus their view brings them into the contrary
position that disorder is natural, and order
or system unnatural. But no natural fact
can originate in chance. This is a point
which Anaxagoras seems to have thoroughly
grasped; for he starts his cosmogony from
unmoved things. The others, it is true, make
things collect together somehow before they
try to produce motion and separation. But
there is no sense in starting generation
from an original state in which bodies are
separated and in movement. Hence Empedocles
begins after the process ruled by Love: for
he could not have constructed the heaven
by building it up out of bodies in separation,
making them to combine by the power of Love,
since our world has its constituent elements
in separation, and therefore presupposes
a previous state of unity and combination.
These arguments make it plain that every
body has its natural movement, which is not
constrained or contrary to its nature. We
go on to show that there are certain bodies
whose necessary impetus is that of weight
and lightness. Of necessity, we assert, they
must move, and a moved thing which has no
natural impetus cannot move either towards
or away from the centre. Suppose a body A
without weight, and a body B endowed with
weight. Suppose the weightless body to move
the distance CD, while B in the same time
moves the distance Ce, which will be greater
since the heavy thing must move further.
Let the heavy body then be divided in the
proportion CE: CD (for there is no reason
why a part of B should not stand in this
relation to the whole). Now if the whole
moves the whole distance CE, the part must
in the same time move the distance CD. A
weightless body, therefore, and one which
has weight will move the same distance, which
is impossible. And the same argument would
fit the case of lightness. Again, a body
which is in motion but has neither weight
nor lightness, must be moved by constraint,
and must continue its constrained movement
infinitely. For there will be a force which
moves it, and the smaller and lighter a body
is the further will a given force move it.
Now let A, the weightless body, be moved
the distance Ce, and B, which has weight,
be moved in the same time the distance Cd.
Dividing the heavy body in the proportion
CE: CD, we subtract from the heavy body a
part which will in the same time move the
distance CE, since the whole moved CD: for
the relative speeds of the two bodies will
be in inverse ratio to their respective sizes.
Thus the weightless body will move the same
distance as the heavy in the same time. But
this is impossible. Hence, since the motion
of the weightless body will cover a greater
distance than any that is suggested, it will
continue infinitely. It is therefore obvious
that every body must have a definite weight
or lightness. But since 'nature' means a
source of movement within the thing itself,
while a force is a source of movement in
something other than it or in itself qua
other, and since movement is always due either
to nature or to constraint, movement which
is natural, as downward movement is to a
stone, will be merely accelerated by an external
force, while an unnatural movement will be
due to the force alone. In either case the
air is as it were instrumental to the force.
For air is both light and heavy, and thus
qua light produces upward motion, being propelled
and set in motion by the force, and qua heavy
produces a downward motion. In either case
the force transmits the movement to the body
by first, as it were, impregnating the air.
That is why a body moved by constraint continues
to move when that which gave the impulse
ceases to accompany it. Otherwise, i. e.
if the air were not endowed with this function,
constrained movement would be impossible.
And the natural movement of a body may be
helped on in the same way. This discussion
suffices to show (1) that all bodies are
either light or heavy, and (2) how unnatural
movement takes place.
From what has been said earlier it is plain
that there cannot be generation either of
everything or in an absolute sense of anything.
It is impossible that everything should be
generated, unless an extra-corporeal void
is possible. For, assuming generation, the
place which is to be occupied by that which
is coming to be, must have been previously
occupied by void in which no body was. Now
it is quite possible for one body to be generated
out of another, air for instance out of fire,
but in the absence of any pre-existing mass
generation is impossible. That which is potentially
a certain kind of body may, it is true, become
such in actuality, But if the potential body
was not already in actuality some other kind
of body, the existence of an extra-corporeal
void must be admitted.
Part 3
It remains to say what bodies are subject
to generation, and why. Since in every case
knowledge depends on what is primary, and
the elements are the primary constituents
of bodies, we must ask which of such bodies
are elements, and why; and after that what
is their number and character. The answer
will be plain if we first explain what kind
of substance an element is. An element, we
take it, is a body into which other bodies
may be analysed, present in them potentially
or in actuality (which of these, is still
disputable), and not itself divisible into
bodies different in form. That, or something
like it, is what all men in every case mean
by element. Now if what we have described
is an element, clearly there must be such
bodies. For flesh and wood and all other
similar bodies contain potentially fire and
earth, since one sees these elements exuded
from them; and, on the other hand, neither
in potentiality nor in actuality does fire
contain flesh or wood, or it would exude
them. Similarly, even if there were only
one elementary body, it would not contain
them. For though it will be either flesh
or bone or something else, that does not
at once show that it contained these in potentiality:
the further question remains, in what manner
it becomes them. Now Anaxagoras opposes Empedocles'
view of the elements. Empedocles says that
fire and earth and the related bodies are
elementary bodies of which all things are
composed; but this Anaxagoras denies. His
elements are the homoeomerous things, viz.
flesh, bone, and the like. Earth and fire
are mixtures, composed of them and all the
other seeds, each consisting of a collection
of all the homoeomerous bodies, separately
invisible; and that explains why from these
two bodies all others are generated. (To
him fire and aither are the same thing.)
But since every natural body has it proper
movement, and movements are either simple
or mixed, mixed in mixed bodies and simple
in simple, there must obviously be simple
bodies; for there are simple movements. It
is plain, then, that there are elements,
and why.
Part 4
The next question to consider is whether
the elements are finite or infinite in number,
and, if finite, what their number is. Let
us first show reason or denying that their
number is infinite, as some suppose. We begin
with the view of Anaxagoras that all the
homoeomerous bodies are elements. Any one
who adopts this view misapprehends the meaning
of element. Observation shows that even mixed
bodies are often divisible into homoeomerous
parts; examples are flesh, bone, wood, and
stone. Since then the composite cannot be
an element, not every homoeomerous body can
be an element; only, as we said before, that
which is not divisible into bodies different
in form. But even taking 'element' as they
do, they need not assert an infinity of elements,
since the hypothesis of a finite number will
give identical results. Indeed even two or
three such bodies serve the purpose as well,
as Empedocles' attempt shows. Again, even
on their view it turns out that all things
are not composed of homocomerous bodies.
They do not pretend that a face is composed
of faces, or that any other natural conformation
is composed of parts like itself. Obviously
then it would be better to assume a finite
number of principles. They should, in fact,
be as few as possible, consistently with
proving what has to be proved. This is the
common demand of mathematicians, who always
assume as principles things finite either
in kind or in number. Again, if body is distinguished
from body by the appropriate qualitative
difference, and there is a limit to the number
of differences (for the difference lies in
qualities apprehended by sense, which are
in fact finite in number, though this requires
proof), then manifestly there is necessarily
a limit to the number of elements.
There is, further, another view-that of Leucippus
and Democritus of Abdera-the implications
of which are also unacceptable. The primary
masses, according to them, are infinite in
number and indivisible in mass: one cannot
turn into many nor many into one; and all
things are generated by their combination
and involution. Now this view in a sense
makes things out to be numbers or composed
of numbers. The exposition is not clear,
but this is its real meaning. And further,
they say that since the atomic bodies differ
in shape, and there is an infinity of shapes,
there is an infinity of simple bodies. But
they have never explained in detail the shapes
of the various elements, except so far to
allot the sphere to fire. Air, water, and
the rest they distinguished by the relative
size of the atom, assuming that the atomic
substance was a sort of master-seed for each
and every element. Now, in the first place,
they make the mistake already noticed. The
principles which they assume are not limited
in number, though such limitation would necessitate
no other alteration in their theory. Further,
if the differences of bodies are not infinite,
plainly the elements will not be an infinity.
Besides, a view which asserts atomic bodies
must needs come into conflict with the mathematical
sciences, in addition to invalidating many
common opinions and apparent data of sense
perception. But of these things we have already
spoken in our discussion of time and movement.
They are also bound to contradict themselves.
For if the elements are atomic, air, earth,
and water cannot be differentiated by the
relative sizes of their atoms, since then
they could not be generated out of one another.
The extrusion of the largest atoms is a process
that will in time exhaust the supply; and
it is by such a process that they account
for the generation of water, air, and earth
from one another. Again, even on their own
presuppositions it does not seem as if the
clements would be infinite in number. The
atoms differ in figure, and all figures are
composed of pyramids, rectilinear the case
of rectilinear figures, while the sphere
has eight pyramidal parts. The figures must
have their principles, and, whether these
are one or two or more, the simple bodies
must be the same in number as they. Again,
if every element has its proper movement,
and a simple body has a simple movement,
and the number of simple movements is not
infinite, because the simple motions are
only two and the number of places is not
infinite, on these grounds also we should
have to deny that the number of elements
is infinite.
Part 5
Since the number of the elements must be
limited, it remains to inquire whether there
is more than one element. Some assume one
only, which is according to some water, to
others air, to others fire, to others again
something finer than water and denser than
air, an infinite body-so they say-bracing
all the heavens.
Now those who decide for a single element,
which is either water or air or a body finer
than water and denser than air, and proceed
to generate other things out of it by use
of the attributes density and rarity, all
alike fail to observe the fact that they
are depriving the element of its priority.
Generation out of the elements is, as they
say, synthesis, and generation into the elements
is analysis, so that the body with the finer
parts must have priority in the order of
nature. But they say that fire is of all
bodies the finest. Hence fire will be first
in the natural order. And whether the finest
body is fire or not makes no difference;
anyhow it must be one of the other bodies
that is primary and not that which is intermediate.
Again, density and rarity, as instruments
of generation, are equivalent to fineness
and coarseness, since the fine is rare, and
coarse in their use means dense. But fineness
and coarseness, again, are equivalent to
greatness and smallness, since a thing with
small parts is fine and a thing with large
parts coarse. For that which spreads itself
out widely is fine, and a thing composed
of small parts is so spread out. In the end,
then, they distinguish the various other
substances from the element by the greatness
and smallness of their parts. This method
of distinction makes all judgement relative.
There will be no absolute distinction between
fire, water, and air, but one and the same
body will be relatively to this fire, relatively
to something else air. The same difficulty
is involved equally in the view elements
and distinguishes them by their greatness
and smallness. The principle of distinction
between bodies being quantity, the various
sizes will be in a definite ratio, and whatever
bodies are in this ratio to one another must
be air, fire, earth, and water respectively.
For the ratios of smaller bodies may be repeated
among greater bodies.
Those who start from fire as the single element,
while avoiding this difficulty, involve themselves
in many others. Some of them give fire a
particular shape, like those who make it
a pyramid, and this on one of two grounds.
The reason given may be-more crudely-that
the pyramid is the most piercing of figures
as fire is of bodies, or-more ingeniously-the
position may be supported by the following
argument. As all bodies are composed of that
which has the finest parts, so all solid
figures are composed of pryamids: but the
finest body is fire, while among figures
the pyramid is primary and has the smallest
parts; and the primary body must have the
primary figure: therefore fire will be a
pyramid. Others, again, express no opinion
on the subject of its figure, but simply
regard it as the of the finest parts, which
in combination will form other bodies, as
the fusing of gold-dust produces solid gold.
Both of these views involve the same difficulties.
For (1) if, on the one hand, they make the
primary body an atom, the view will be open
to the objections already advanced against
the atomic theory. And further the theory
is inconsistent with a regard for the facts
of nature. For if all bodies are quantitatively
commensurable, and the relative size of the
various homoeomerous masses and of their
several elements are in the same ratio, so
that the total mass of water, for instance,
is related to the total mass of air as the
elements of each are to one another, and
so on, and if there is more air than water
and, generally, more of the finer body than
of the coarser, obviously the element of
water will be smaller than that of air. But
the lesser quantity is contained in the greater.
Therefore the air element is divisible. And
the same could be shown of fire and of all
bodies whose parts are relatively fine. (2)
If, on the other hand, the primary body is
divisible, then (a) those who give fire a
special shape will have to say that a part
of fire is not fire, because a pyramid is
not composed of pyramids, and also that not
every body is either an element or composed
of elements, since a part of fire will be
neither fire nor any other element. And (b)
those whose ground of distinction is size
will have to recognize an element prior to
the element, a regress which continues infinitely,
since every body is divisible and that which
has the smallest parts is the element. Further,
they too will have to say that the same body
is relatively to this fire and relatively
to that air, to others again water and earth.
The common error of all views which assume
a single element is that they allow only
one natural movement, which is the same for
every body. For it is a matter of observation
that a natural body possesses a principle
of movement. If then all bodies are one,
all will have one movement. With this motion
the greater their quantity the more they
will move, just as fire, in proportion as
its quantity is greater, moves faster with
the upward motion which belongs to it. But
the fact is that increase of quantity makes
many things move the faster downward. For
these reasons, then, as well as from the
distinction already established of a plurality
of natural movements, it is impossible that
there should be only one element. But if
the elements are not an infinity and not
reducible to one, they must be several and
finite in number.
Part 6
First we must inquire whether the elements
are eternal or subject to generation and
destruction; for when this question has been
answered their number and character will
be manifest. In the first place, they cannot
be eternal. It is a matter of observation
that fire, water, and every simple body undergo
a process of analysis, which must either
continue infinitely or stop somewhere. (1)
Suppose it infinite. Then the time occupied
by the process will be infinite, and also
that occupied by the reverse process of synthesis.
For the processes of analysis and synthesis
succeed one another in the various parts.
It will follow that there are two infinite
times which are mutually exclusive, the time
occupied by the synthesis, which is infinite,
being preceded by the period of analysis.
There are thus two mutually exclusive infinites,
which is impossible. (2) Suppose, on the
other hand, that the analysis stops somewhere.
Then the body at which it stops will be either
atomic or, as Empedocles seems to have intended,
a divisible body which will yet never be
divided. The foregoing arguments show that
it cannot be an atom; but neither can it
be a divisible body which analysis will never
reach. For a smaller body is more easily
destroyed than a larger; and a destructive
process which succeeds in destroying, that
is, in resolving into smaller bodies, a body
of some size, cannot reasonably be expected
to fail with the smaller body. Now in fire
we observe a destruction of two kinds: it
is destroyed by its contrary when it is quenched,
and by itself when it dies out. But the effect
is produced by a greater quantity upon a
lesser, and the more quickly the smaller
it is. The elements of bodies must therefore
be subject to destruction and generation.
Since they are generated, they must be generated
either from something incorporeal or from
a body, and if from a body, either from one
another or from something else. The theory
which generates them from something incorporeal
requires an extra-corporeal void. For everything
that comes to be comes to be in something,
and that in which the generation takes place
must either be incorporeal or possess body;
and if it has body, there will be two bodies
in the same place at the same time, viz.
that which is coming to be and that which
was previously there, while if it is incorporeal,
there must be an extra-corporeal void. But
we have already shown that this is impossible.
But, on the other hand, it is equally impossible
that the elements should be generated from
some kind of body. That would involve a body
distinct from the elements and prior to them.
But if this body possesses weight or lightness,
it will be one of the elements; and if it
has no tendency to movement, it will be an
immovable or mathematical entity, and therefore
not in a place at all. A place in which a
thing is at rest is a place in which it might
move, either by constraint, i. e. unnaturally,
or in the absence of constraint, i. e. naturally.
If, then, it is in a place and somewhere,
it will be one of the elements; and if it
is not in a place, nothing can come from
it, since that which comes into being and
that out of which it comes must needs be
together. The elements therefore cannot be
generated from something incorporeal nor
from a body which is not an element, and
the only remaining alternative is that they
are generated from one another.
Part 7
We must, therefore, turn to the question,
what is the manner of their generation from
one another? Is it as Empedocles and Democritus
say, or as those who resolve bodies into
planes say, or is there yet another possibility?
(1) What the followers of Empedocles do,
though without observing it themselves, is
to reduce the generation of elements out
of one another to an illusion. They make
it a process of excretion from a body of
what was in it all the time-as though generation
required a vessel rather than a material-so
that it involves no change of anything. And
even if this were accepted, there are other
implications equally unsatisfactory. We do
not expect a mass of matter to be made heavier
by compression. But they will be bound to
maintain this, if they say that water is
a body present in air and excreted from air,
since air becomes heavier when it turns into
water. Again, when the mixed body is divided,
they can show no reason why one of the constituents
must by itself take up more room than the
body did: but when water turns into air,
the room occupied is increased. The fact
is that the finer body takes up more room,
as is obvious in any case of transformation.
As the liquid is converted into vapour or
air the vessel which contains it is often
burst because it does not contain room enough.
Now, if there is no void at all, and if,
as those who take this view say, there is
no expansion of bodies, the impossibility
of this is manifest: and if there is void
and expansion, there is no accounting for
the fact that the body which results from
division cfpies of necessity a greater space.
It is inevitable, too, that generation of
one out of another should come to a stop,
since a finite quantum cannot contain an
infinity of finite quanta. When earth produces
water something is taken away from the earth,
for the process is one of excretion. The
same thing happens again when the residue
produces water. But this can only go on for
ever, if the finite body contains an infinity,
which is impossible. Therefore the generation
of elements out of one another will not always
continue.
(2) We have now explained that the mutual
transformations of the elements cannot take
place by means of excretion. The remaining
alternative is that they should be generated
by changing into one another. And this in
one of two ways, either by change of shape,
as the same wax takes the shape both of a
sphere and of a cube, or, as some assert,
by resolution into planes. (a) Generation
by change of shape would necessarily involve
the assertion of atomic bodies. For if the
particles were divisible there would be a
part of fire which was not fire and a part
of earth which was not earth, for the reason
that not every part of a pyramid is a pyramid
nor of a cube a cube. But if (b) the process
is resolution into planes, the first difficulty
is that the elements cannot all be generated
out of one another. This they are obliged
to assert, and do assert. It is absurd, because
it is unreasonable that one element alone
should have no part in the transformations,
and also contrary to the observed data of
sense, according to which all alike change
into one another. In fact their explanation
of the observations is not consistent with
the observations. And the reason is that
their ultimate principles are wrongly assumed:
they had certain predetermined views, and
were resolved to bring everything into line
with them. It seems that perceptible things
require perceptible principles, eternal things
eternal principles, corruptible things corruptible
principles; and, in general, every subject
matter principles homogeneous with itself.
But they, owing to their love for their principles,
fall into the attitude of men who undertake
the defence of a position in argument. In
the confidence that the principles are true
they are ready to accept any consequence
of their application. As though some principles
did not require to be judged from their results,
and particularly from their final issue!
And that issue, which in the case of productive
knowledge is the product, in the knowledge
of nature is the unimpeachable evidence of
the senses as to each fact.
The result of their view is that earth has
the best right to the name element, and is
alone indestructible; for that which is indissoluble
is indestructible and elementary, and earth
alone cannot be dissolved into any body but
itself. Again, in the case of those elements
which do suffer dissolution, the 'suspension'
of the triangles is unsatisfactory. But this
takes place whenever one is dissolved into
another, because of the numerical inequality
of the triangles which compose them. Further,
those who hold these views must needs suppose
that generation does not start from a body.
For what is generated out of planes cannot
be said to have been generated from a body.
And they must also assert that not all bodies
are divisible, coming thus into conflict
with our most accurate sciences, namely the
mathematical, which assume that even the
intelligible is divisible, while they, in
their anxiety to save their hypothesis, cannot
even admit this of every perceptible thing.
For any one who gives each element a shape
of its own, and makes this the ground of
distinction between the substances, has to
attribute to them indivisibility; since division
of a pyramid or a sphere must leave somewhere
at least a residue which is not sphere or
a pyramid. Either, then, a part of fire is
not fire, so that there is a body prior to
the element-for every body is either an element
or composed of elements-or not every body
is divisible.
Part 8
In general, the attempt to give a shape to
each of the simple bodies is unsound, for
the reason, first, that they will not succeed
in filling the whole. It is agreed that there
are only three plane figures which can fill
a space, the triangle, the square, and the
hexagon, and only two solids, the pyramid
and the cube. But the theory needs more than
these because the elements which it recognizes
are more in number. Secondly, it is manifest
that the simple bodies are often given a
shape by the place in which they are included,
particularly water and air. In such a case
the shape of the element cannot persist;
for, if it did, the contained mass would
not be in continuous contact with the containing
body; while, if its shape is changed, it
will cease to be water, since the distinctive
quality is shape. Clearly, then, their shapes
are not fixed. Indeed, nature itself seems
to offer corroboration of this theoretical
conclusion. Just as in other cases the substratum
must be formless and unshapen-for thus the
'all-receptive', as we read in the Timaeus,
will be best for modelling-so the elements
should be conceived as a material for composite
things; and that is why they can put off
their qualitative distinctions and pass into
one another. Further, how can they account
for the generation of flesh and bone or any
other continuous body? The elements alone
cannot produce them because their collocation
cannot produce a continuum. Nor can the composition
of planes; for this produces the elements
themselves, not bodies made up of them. Any
one then who insists upon an exact statement
of this kind of theory, instead of assenting
after a passing glance at it, will see that
it removes generation from the world.
Further, the very properties, powers, and
motions, to which they paid particular attention
in allotting shapes, show the shapes not
to be in accord with the bodies. Because
fire is mobile and productive of heat and
combustion, some made it a sphere, others
a pyramid. These shapes, they thought, were
the most mobile because they offer the fewest
points of contact and are the least stable
of any; they were also the most apt to produce
warmth and combustion, because the one is
angular throughout while the other has the
most acute angles, and the angles, they say,
produce warmth and combustion. Now, in the
first place, with regard to movement both
are in error. These may be the figures best
adapted to movement; they are not, however,
well adapted to the movement of fire, which
is an upward and rectilinear movement, but
rather to that form of circular movement
which we call rolling. Earth, again, they
call a cube because it is stable and at rest.
But it rests only in its own place, not anywhere;
from any other it moves if nothing hinders,
and fire and the other bodies do the same.
The obvious inference, therefore, is that
fire and each several element is in a foreign
place a sphere or a pyramid, but in its own
a cube. Again, if the possession of angles
makes a body produce heat and combustion,
every element produces heat, though one may
do so more than another. For they all possess
angles, the octahedron and dodecahedron as
well as the pyramid; and Democritus makes
even the sphere a kind of angle, which cuts
things because of its mobility. The difference,
then, will be one of degree: and this is
plainly false. They must also accept the
inference that the mathematical produce heat
and combustion, since they too possess angles
and contain atomic spheres and pyramids,
especially if there are, as they allege,
atomic figures. Anyhow if these functions
belong to some of these things and not to
others, they should explain the difference,
instead of speaking in quite general terms
as they do. Again, combustion of a body produces
fire, and fire is a sphere or a pyramid.
The body, then, is turned into spheres or
pyramids. Let us grant that these figures
may reasonably be supposed to cut and break
up bodies as fire does; still it remains
quite inexplicable that a pyramid must needs
produce pyramids or a sphere spheres. One
might as well postulate that a knife or a
saw divides things into knives or saws. It
is also ridiculous to think only of division
when allotting fire its shape. Fire is generally
thought of as combining and connecting rather
than as separating. For though it separates
bodies different in kind, it combines those
which are the same; and the combining is
essential to it, the functions of connecting
and uniting being a mark of fire, while the
separating is incidental. For the expulsion
of the foreign body is an incident in the
compacting of the homogeneous. In choosing
the shape, then, they should have thought
either of both functions or preferably of
the combining function. In addition, since
hot and cold are contrary powers, it is impossible
to allot any shape to the cold. For the shape
given must be the contrary of that given
to the hot, but there is no contrariety between
figures. That is why they have all left the
cold out, though properly either all or none
should have their distinguishing figures.
Some of them, however, do attempt to explain
this power, and they contradict themselves.
A body of large particles, they say, is cold
because instead of penetrating through the
passages it crushes. Clearly, then, that
which is hot is that which penetrates these
passages, or in other words that which has
fine particles. It results that hot and cold
are distinguished not by the figure but by
the size of the particles. Again, if the
pyramids are unequal in size, the large ones
will not be fire, and that figure will produce
not combustion but its contrary.
From what has been said it is clear that
the difference of the elements does not depend
upon their shape. Now their most important
differences are those of property, function,
and power; for every natural body has, we
maintain, its own functions, properties,
and powers. Our first business, then, will
be to speak of these, and that inquiry will
enable us to explain the differences of each
from each.
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Evans Experientialism 
