...ns.), pp. 1–109 in ''Aristotle, Volume 1'', Loeb Classical Library, William Heinemann, London, UK, 1938.
....), pp. 111–179 in ''Aristotle, Volume 1'', Loeb Classical Library, William Heinemann, London, UK, 1938.
7 KB (919 words) - 22:48, 10 November 2015
...e]] (trans.), pp. 1–109 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
...] (trans.), pp. 111–179 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
61 KB (7,563 words) - 18:26, 15 June 2010
...e]] (trans.), pp. 1–109 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
...] (trans.), pp. 111–179 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
61 KB (7,562 words) - 18:18, 18 March 2008
...(trans.), pp. 1–109 in ''Aristotle, Volume 1'', Loeb Classical Library, William Heinemann, London, UK, 1938.
..., “On a New List of Categories”, [http://www.cspeirce.com/menu/library/bycsp/newlist/nl-frame.htm Online].
13 KB (1,988 words) - 05:06, 16 December 2013
In one classical formulation, truth is defined as the good of [[logic]], where logic is trea
...e]] (trans.), pp. 1–109 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
81 KB (11,851 words) - 18:53, 20 August 2007
In one classical formulation, truth is defined as the good of [[logic]], where logic is trea
...e]] (trans.), pp. 1–109 in ''Aristotle, Volume 1'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1938.
81 KB (11,851 words) - 22:22, 25 January 2008
...R.M. Lamb]] (trans.), pp. 93–223 in ''Plato, Volume 12'', [[Loeb Classical Library]], [[William Heinemann]], London, UK, 1927.
14 KB (1,827 words) - 18:48, 27 July 2016
In one classical formulation, truth is defined as the good of [[logic]], where logic is trea
...rans.), pp. 111–179 in ''Aristotle, Volume 1'', Loeb Classical Library, William Heinemann, London, UK, 1938.
37 KB (5,460 words) - 14:45, 17 November 2015
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80 bytes (10 words) - 11:56, 6 October 2010
...ir logical linkage is already a [[inventio|commonplace]] [[paradigm]] of [[Classical philosophy]]. The need to understand this complex of features leads to som
...changed. I do not think that the difficulties that philosophy finds with classical mathematics today are genuine difficulties; and I think that the philosoph
73 KB (10,917 words) - 19:48, 6 September 2017
==Classical sources==
...del or theory of inquiry was extracted by Peirce from its raw materials in classical logic, with a little bit of help from [[Kant]], and refined in parallel wit
58 KB (7,676 words) - 22:34, 15 November 2015
...of inquiry, formulated by C.S. Peirce from his lifelong investigations of classical logic and experimental reasoning. For my purposes, all this certification
...uiry was extracted by [[Charles Sanders Peirce]] from its raw materials in classical logic and refined in parallel with the early development of symbolic logic
121 KB (16,341 words) - 04:34, 30 October 2015
| in the study of classical texts, are incapable of
...nism was [[L.E.J. Brouwer]], who postulated a new logic different from the classical Aristotelian logic; this ''intuistic logic'' does not contain the [[Law of
177 KB (26,694 words) - 02:20, 15 December 2010
...ntroduce the three fundamental types of reasoning that Peirce adopted from classical logic. In Peirce's analysis both inquiry and analogy are complex programs
...this interpretation in mind we note the following correspondences between classical quantifications and higher order indicator functions:
106 KB (13,991 words) - 18:45, 18 March 2020
...ental model|model]] or [[theory]] of [[inquiry]] from its raw materials in classical logic and refined it in parallel with the early development of symbolic log
...on Publishers, The Hague, Netherlands, 1976. [http://www.cspeirce.com/menu/library/bycsp/l75/l75.htm Eprint, Joseph Ransdell (ed.)].
93 KB (14,277 words) - 20:00, 28 July 2017
...m{W}\!</math> are named by analogy with the corresponding operators in the classical difference calculus. Next, the complete operators <math>\mathsf{W} = (\bol
| Spivak, M., ''Calculus on Manifolds : A Modern Approach to Classical Theorems of Advanced Calculus'', W.A. Benjamin, New York, NY, 1965.
519 KB (74,456 words) - 15:46, 3 October 2013
...fforts and experiences. To be used for clear and present indications this library must have a ready index of its contents, a form of afterthought that is not
...otorious than today. But the relevant character to be appreciated in this classical architecture is the degree of harmony and balance, the soundness in support
226 KB (34,541 words) - 14:20, 20 August 2016
...t operators W are named by analogy with the corresponding operators in the classical difference calculus. Next, the complete operators <font face=georgia>'''W'
| Spivak, M., ''Calculus on Manifolds : A Modern Approach to Classical Theorems of Advanced Calculus'', W.A. Benjamin, New York, NY, 1965.
394 KB (54,134 words) - 14:30, 3 March 2023
...m{W}\!</math> are named by analogy with the corresponding operators in the classical difference calculus. Next, the complete operators <math>\mathsf{W} = (\bol
| Spivak, M., ''Calculus on Manifolds : A Modern Approach to Classical Theorems of Advanced Calculus'', W.A. Benjamin, New York, NY, 1965.
528 KB (75,728 words) - 21:56, 14 January 2021
...m{W}\!</math> are named by analogy with the corresponding operators in the classical difference calculus. Next, the complete operators <math>\mathsf{W} = (\bol
| Spivak, M., ''Calculus on Manifolds : A Modern Approach to Classical Theorems of Advanced Calculus'', W.A. Benjamin, New York, NY, 1965.
529 KB (75,750 words) - 14:32, 3 March 2023