Introduction to:
Origins of Natural Science
(a
lecture series
by Rudolf Steiner)
The nine
lectures that follows were delivered by Rudolf Steiner at the turn
of 1922/23 in Dornach, Switzerland. They were directed to an audience
containing some professional scientists and others particularly
interested in science, mangy of whom were members of the
Anthroposophical Society. 1922/23 happens also to have been an
historical moment in the life of the Society and indeed of the
lecturer. No one reading them would suspect that between Lectures 5
and 6 both parties had been stricken by a crushing blow. On New
Year's Eve, 1922, the building named the Goetheanum, in which
the first five lectures had been given, was totally destroyed by fire
and was indeed still burning on January 1 when Steiner delivered
Lecture 6 in his private Studio. The great wooden structure, a temple
rather than a mere headquarters or meeting-place, had been designed
by Steiner himself, its building supervised by him at all stages, and
much of its interior worked with his own hands; but this is not the
place to enlarge on his personal tragedy or the courage and
determination it must have required to continue with the lecture
course on the following day almost as if nothing had happened. The
most that critical appraisal might detect as a possible consequence
of that grievous interruption is perhaps a certain repetitiveness not
apparent elsewhere in either his books or his lectures; and this the
translator has taken the liberty of slightly reducing.
One more preliminary observation may be desirable. Most members of
the original audience would have been familiar, to a greater or less
degree, with the fundamental teachings and thus with the terminology
of anthroposophy, or spiritual science, as Steiner also named them.
Here and there in the lectures some of that terminology is
introduced, for example “etheric” and
“astral,”
“the Age of the consciousness soul.” Mostly their meaning
is briefly indicated when they first appear; but it remains true that
some previous familiarity with them is of considerable assistance
towards a full understanding, not only of particular passages, but
also of the radical message of the whole.
Their basic argument is that modern science, and the scientism based
on it, so far from being the only possible
“reality-principle”
is merely one way of conceiving the nature of reality; a way moreover
that has arisen only recently and which there is no reason to suppose
will last forever. Many today might admit as much, but in doing so
they would be thinking of modern science mainly as a theory or set of
theories capable of proof or disproof by accepted methods. For
Steiner modern science, including its empirical method, is a
stage, and an important stage, in the whole evolution of human
consciousness. And that is something different from, though it
underlies, the history of ideas. Perception itself is determined by
the human psyche, the consciousness which determines perception
precedes the formation of thoughts based on that perception, and the
human psyche is an evolving one. Only hitherto it has not been
conscious of that fact. Certain ideas were formed, and could only be
formed, at certain stages in that evolution. Ideas for instance or
theories about the nature of the world, or the nature of Nature, are
necessarily based on certain “givens” — experiences
taken for granted — which are so immediate that no ideas at all
can be formed about them. Isaac Newton, as Lecture Three
points out, was sufficiently aware of this to declare the
“givens”
of his own day as the “postulates” from which he started.
They were time, place, space and motion. And these remain the givens
for our day, even if their slight unsettling by Einstein's
relativity should be the first faint breath of coming winds of
change. But they were not so for other days and other men. They were
not so before at most the fifteenth century. They are given for us,
because for us the outer world of natural objects and events is
experienced as completely detached from the inner world of our own
awareness of them, that is to say, from our humanity. Descartes was
the first to formulate this — then comparatively novel —
given, when he divided the world into extended substance and thinking
substance.
Writing in 1818 an essay on Method, Coleridge prophesied:
“… there will soon be seen a general tendency toward, an
earnest seeking after, come ground common to the world and to man,
therein to find the one principle of permanence and identity, the
rock of strength and refuge, to which the soul may cling amid the
fleeing surge-like objects of the sense.”
The
abiding thrust of these lectures is Steiner's unshakable
conviction that from now on the progress of science will depend on
the overcoming of the received dichotomy between man and nature just
as from the fifteenth or sixteenth century up to now the
progress of science has depended on that dichotomy. Incidental
to that progress would be escape from the crudities of popular
scientism, but the lectures are only marginally concerned with that.
Their content is based on the fact that the understanding, perhaps of
any phenomenon but certainly of any phenomenon so basic as to be
“given,” entails a patient examination of its provenance,
that is to say of the steps by which it came into being. Consequently
they are, as the title suggests, lectures not on science, but on the
history of science. In sum they tell the story of the origin and then
of the growth of that gulf between inner and outer, between subject
and object, extending from a time before Pythagoras down to our own
day, as it is manifest in the writings and biographies of a selection
of well-known thinkers. Particular attention is given to transitional
figures, men whose perceptions were still determined by the past,
while their thoughts were confronted by what was approaching from the
future; and perhaps especially interesting in this regard are the
observations of Giordana Bruno's cosmos in Lecture Four and
Galen's theory of “fermentation” in Lecture
Eight.
The story is at the same time one of the steadily increasing
predominance of mathematics in determining scientific method.
Perception of this is not peculiar to Steiner. What distinguishes him
from other historians of science is the psychological detail into
which he pursues the story and, more than that, his account of the
origin of mathematics, The Cartesian coordinates are not as
abstract as they seem; or rather they were not always so. Steiner
sees them as an extrapolation or projection of man's experience
of his own body; that is to say, of his physical body. And here is
one of the places where some previous acquaintance with anthroposophy
and its terminology would be helpful, though it should not
indispensable. It is unfortunate that the word “body” has
become, for most people, almost synonymous with “lump of solid
matter;” Particularly unfortunate, where it is the human body
that is at issue, since nine-tenths of that is composed of fluids,
and of fluids that are for the most part in motion. “Body”
in Steiner's terminology, signifies something more like
“systematically organized unit or entity,” as distinct
from the matter or substance of which it is composed. Thus, the fact
that the frame of a living human being contains, and not at random,
fluid and airy, as well as solid, substance, entails the existence of
other “bodies” besides the physically organized one.
These are especially relevant when the discourse turns from knowledge
of quantity (measurement and mathematics) to knowledge of quality, an
aspect of nature that is virtually a closed book to the science of
today.
The development of that science of today, a purely quantitative one,
is the main thread on which the lectures are strung, and the reader
will follow it or himself. Not much perhaps would be gained by
informing him in advance that, if he does so, he will be shown for
example, how the projection of mathematics, and particularly the
coordinates, outward from the body and thus from human selfhood, has
led to the reification of space — that long-settled mental
habit which advanced psychics has only recently begun to question. He
will also find an answer to a question which has puzzled many
thinkers: why should mathematics, a seemingly artificial
construction of the human brain, have been found an effective key to
unlock so many of the secrets of nature? How is it that the one has
happened to fit so snugly on the other? More generally he will be led
down a sort of ladder of “descent,” accompanied
throughout by mathematics, from man's original psychic
participation in the life of nature to his present detachment from
it; to be shown at the end that an understanding of the way of ascent
to reunion with that life also begins with mathematics. The
last is an aspect of the matter with which Steiner was to deal more
specifically in a subsequent course of lectures translated into
English as The Boundaries of Natural Science.
“Descent” and “ascent” are of course loaded
terms, and their use can be misleading. The same is true of the term
“dehumanization” when in these lectures it is applied to
the history of science. Steiner was no enemy of science, though he
vigorously questioned many of its theories. “Technology”
is not a dirty word in his vocabulary. Pointing to a fact is not
necessarily abuse. Science has become dehumanized in the sense that
it has turned its attention more and more away from human experience
and human values. But in doing so it has furthered, if not partly
engendered, one supreme human value — that detached, individual
self-consciousness that is the pre-condition of freedom. Man has
become separated from the world that gave him birth; but he needed
that separation in order to become truly man. To draw attention to
that separation is, says our lecturer, “a description of the
scientific view, not a criticism.” He continues (and I will
conclude this Introduction by quoting the closing words of Lecture
Six):
Let us assume that somebody says: “Here I have water. I cannot
use it in this state. I separate the oxygen from the hydrogen,
because I need the hydrogen.” He then proceeds to do so. If
I then say what he has done, this is not criticism of his
conduct. I
have no business to tell him he is doing something wrong, and should
leave the water alone. Nor is it criticism when I say that since the
Fifteenth Century science has taken the world of living beings and
separated it from the true nature of man, discarding it and retaining
what the age required. It then led this dehumanized science to the
triumphs that have been achieved.
It is not criticism if something like this is said: it is only a
description. The scientist of modern times needed a dehumanized
nature, just as a chemist needs deoxygenized hydrogen and therefore
has to split water into its two components. The point is to
understand that we must not constantly fall into the error of looking
to science for an understanding of man.
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