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Dictionary of the History of Ideas

Studies of Selected Pivotal Ideas
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7 occurrences of Dictionary of the History of Ideas
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II

At the start of the modern period, the instrumental
and exemplary nature of mathematics recognized by
the new science led to extending the mathematical
mode of exposition to various disciplines. This occurred
first in the extension of the work begun by the Greeks
to the science of nature and, more exactly, to that part
which is generally regarded as its foundation, namely,
Mechanics. Galileo was inspired by the method of
Archimedes, and tried to do for Dynamics what Archi-
medes had done for Statics. Descartes, in his Principles
of Philosophy
(Principia philosophiae, 1644), postulated
three “laws of nature” dealing with motion, justifying
them a priori through God's perfection, and claiming
that he could demonstrate all of physics by means of
these three laws. Finally, and above all, Newton in his
Mathematical Principles of Natural Philosophy (Philo-
sophiae naturalis principia mathematica,
1687), orga-
nized Mechanics in the form of a logical system which
has remained classical. It was taught often best, espe-
cially in France, as a mathematical discipline. Newton's
work opens with the statement of eight definitions and
three axioms or laws of motion, starting from which


165

Books I and II demonstrate a great many theorems.

However, the prestige of the Euclidean axiomatic
model was such that after going beyond mathematics,
it won over disciplines which are outside of science
properly speaking. Descartes, while maintaining his
preference for the analytical order of his Meditations,
had already agreed, to satisfy the authors of the Second
Objections,
to expound in synthetic order the “reasons
which prove the existence of God and the distinction
between the mind and the human body, the reasons
arranged in a geometric manner,” demonstrating his
propositions through definitions, postulates, and
axioms. His example was followed by Spinoza, with
a breadth and rigor which fascinated many minds, in
his Ethics, demonstrated in a geometric order (Ethica
ordine geometrica demonstrata,
1677); Spinoza's work
was expounded by subjecting it, from one end to the
other with no exceptions, to the requirements of Eu-
clidean standards with definitions, postulates, and
axioms followed by propositions, demonstrations,
corollaries, lemmas, and scholia.

Jurisprudence, along with metaphysics and ethics,
also entered upon the road of axiomatization. When-
ever Leibniz wished to give examples of disciplines
containing rigorous reasoning he mentioned the works
of the Roman jurisconsults as well as of the Greek
mathematicians. He offered an example himself of a
juridical exposition by definitions and theorems in his
sample of legal persuasion or demonstration (Specimen
certitudinis seu demonstrationum in jure,
1669) in which
he refers to “those ancients who arranged their rebut-
tals by means of very certain and quasi-mathematical
demonstrations.” Not long before, Samuel von Pufen-
dorf had published his Elementa jurisprudentia uni-
versalis
(1660), written under the double inspiration
of Grotius and his own teacher Weigel who taught both
law and mathematics. Pufendorf wished to show that
law, rising above historical contingencies, contains a
body of propositions which are perfectly certain and
universally valid, and capable of being made the con-
clusions of a demonstrative science. As a matter of fact,
here, as in Leibniz, axiomatization was still only
making a start. Instead of producing the propositions
and their proofs as logical consequences of principles,
Pufendorf presented them substantially in extensive
commentaries which follow each one of his twenty-one
definitions in order to avoid, he said, “a certain aridity
which might have run the risk of distorting this disci-
pline if we had presented it by cutting it up into small
parts, as is the manner of mathematics.” In the wake
of Pufendorf the so-called school of “natural law and
human right” elaborated for more than a century theo-
ries in which “one deduces through a continuous chain
leading from the very nature of man to all his obliga
tions and all his rights,” restating the subtitle of one
of Christian Wolff's works. Wolff, as a disciple of
Leibniz, boasted of accomplishing what others had only
proposed to do, namely, to deal with the theory of
human actions according to the demonstrative method
of the mathematicians (Philosophia practica universalis,
methodo scientifica pertracta,
Frankfurt and Leipzig,
1738-39). Nevertheless, here also, we are quite far from
the logical rigor and even the mode of presentation
of Euclidean geometry.