“Historically, it was Euclidean geometry that, developed to a large extent as a votive offering to the God of Reason, opened men's eyes to the possibility of design and to the possibility of uncovering it by the pursuit of mathematics.”

— Morris Kline

Source: Mathematics and the Physical World (1959), p. 89

Adopted from Wikiquote. Last update June 3, 2021. History

Help us to complete the source, original and additional information

Do you have more details about the quote "Historically, it was Euclidean geometry that, developed to a large extent as a votive offering to the God of Reason, op…" by Morris Kline?

Morris Kline 42

American mathematician 1908–1992

Related quotes

“The concept of congruence in Euclidean geometry is not exactly the same as that in non-Euclidean geometry. …"Congruent" means in Euclidean geometry the same as "determining parallelism," a meaning which it does not have in non-Euclidean geometry.”

Hans Reichenbach (1891–1953) American philosopher

The Philosophy of Space and Time (1928, tr. 1957)

“Euclidean geometry can be easily visualized; this is the argument adduced for the unique position of Euclidean geometry in mathematics. It has been argued that mathematics is not only a science of implications but that it has to establish preference for one particular axiomatic system. Whereas physics bases this choice on observation and experimentation, i. e., on applicability to reality, mathematics bases it on visualization, the analogue to perception in a theoretical science. Accordingly, mathematicians may work with the non-Euclidean geometries, but in contrast to Euclidean geometry, which is said to be "intuitively understood," these systems consist of nothing but "logical relations" or "artificial manifolds". They belong to the field of analytic geometry, the study of manifolds and equations between variables, but not to geometry in the real sense which has a visual significance.”

Hans Reichenbach (1891–1953) American philosopher

The Philosophy of Space and Time (1928, tr. 1957)

“Intelligent Design opens the whole possibility of us being created in the image of a benevolent God.”

William A. Dembski (1960) American intelligent design advocate

"Defeating Darwinism in Our Culture" panel discussion, National Religious Broadcasters meeting, Anaheim, 2000-02-06, as quoted in [2006, Why Darwin matters: the case against intelligent design, Michael, Shermer, New York, Times Books, 978-0-8050-8306-4, [QH366.2.S494, 2006], 2006041243]
2000s

“God gives us intelligence to uncover the wonders of nature. Without the gift, nothing is possible.”

James Clavell (1921–1994) American novelist

André Delambre
The Fly (1958)

“Development of Western Science is based on two great achievements, the invention of the formal logical system (in Euclidean geometry) by the Greek philosophers, and the discovery of the possibility to find out causal relationships by systematic experiment (Renaissance). In my opinion one has not to be astonished that the Chinese sages have not made these steps. The astonishing thing is that these discoveries were made at all.”

Albert Einstein (1879–1955) German-born physicist and founder of the theory of relativity

Letter to J.S. Switzer (23 April 1953), quoted in The Scientific Revolution: a Hstoriographical Inquiry By H. Floris Cohen (1994), p. 234 http://books.google.com/books?id=wu8b2NAqnb0C&lpg=PP1&pg=PA234#v=onepage&q&f=false, and also partly quoted in The Ultimate Quotable Einstein edited by Alice Calaprice (2010), p. 405 http://books.google.com/books?id=G_iziBAPXtEC&lpg=PP1&pg=PA405#v=onepage&q&f=false
1950s

“The interpretation of metaphors shifts from the univocality of catachreses to the open possibilities offered by inventive metaphors.”

Umberto Eco book Semiotics and the Philosophy of Language

[O] : Introduction, 0.2
Semiotics and the Philosophy of Language (1984)
Context: The principle of interpretation says that "a sign is something by knowing which we know something more" (Peirce). The Peircean idea of semiosis is the idea of an infinite process of interpretation. It seems that the symbolic mode is the paramount example of this possibility.
However, interpretation is not reducible to the responses elicited by the textual strategies accorded to the symbolic mode. The interpretation of metaphors shifts from the univocality of catachreses to the open possibilities offered by inventive metaphors. Many texts have undoubtedly many possible senses, but it is still possible to decide which one has to be selected if one approaches the text in the light of a given topic, as well as it is possible to tell of certain texts how many isotopies they display.

“Euclidean geometry is only one of several congruence geometries… Each of these geometries is characterized by a real number K, which for Euclidean geometry is 0, for the hyperbolic negative, and for the spherical and elliptic geometries, positive. In the case of 2-dimensional congruence spaces… K may be interpreted as the curvature of the surface into the third dimension—whence it derives its name…”

Howard P. Robertson (1903–1961) American mathematician and physicist

Geometry as a Branch of Physics (1949)

“A large part of mathematics which becomes useful developed with absolutely no desire to be useful, and in a situation where nobody could possibly know in what area it would become useful; and there were no general indications that it ever would be so.”

John Von Neumann (1903–1957) Hungarian-American mathematician and polymath

"The Role of Mathematics in the Sciences and in Society" (1954) an address to Princeton alumni, published in John von Neumann : Collected Works (1963) edited by A. H. Taub ; also quoted in Out of the Mouths of Mathematicians : A Quotation Book for Philomaths (1993) by R. Schmalz
Context: A large part of mathematics which becomes useful developed with absolutely no desire to be useful, and in a situation where nobody could possibly know in what area it would become useful; and there were no general indications that it ever would be so. By and large it is uniformly true in mathematics that there is a time lapse between a mathematical discovery and the moment when it is useful; and that this lapse of time can be anything from 30 to 100 years, in some cases even more; and that the whole system seems to function without any direction, without any reference to usefulness, and without any desire to do things which are useful.

“Negotiation is not an act of battle; it’s a process of discovery. The goal is to uncover as much information as possible.”

Chris Voss book Never Split the Difference: Negotiating As If Your Life Depended On It

“…the differential element of non-Euclidean spaces is Euclidean. This fact, however, is analogous to the relations between a straight line and a curve, and cannot lead to an epistemological priority of Euclidean geometry, in contrast to the views of certain authors.”

Hans Reichenbach (1891–1953) American philosopher

The Philosophy of Space and Time (1928, tr. 1957)

“Historically, it was Euclidean geometry that, developed to a large extent as a votive offering to the God of Reason, opened men's eyes to the possibility of design and to the possibility of uncovering it by the pursuit of mathematics.”

Help us to complete the source, original and additional information

Morris Kline 42

Related quotes

Related topics