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Classification of the sciences (Peirce)

April 10, 2024

The philosopher Charles Sanders Peirce (1839–1914) did considerable work over a period of years on the classification of sciences (including mathematics).[1] His classifications are of interest both as a map for navigating his philosophy and as an accomplished polymath's survey of research in his time. Peirce himself was well grounded and produced work in many research fields, including logic, mathematics, statistics, philosophy, spectroscopy, gravimetry, geodesy, chemistry, and experimental psychology.[2]

Classifications edit

Philosophers have done little work on classification of the sciences and mathematics since Peirce's time. Noting Peirce's "important" contribution, Denmark's Birger Hjørland commented: "There is not today (2005), to my knowledge, any organized research program about the classification of the sciences in any discipline or in any country".[3][4] As Miksa (1998) writes, the "interest for this question largely died in the beginning of the 20th century".[5] It is not clear whether Hjørland includes the classification of mathematics in that characterization.

Taxa edit

In 1902 and 1903 Peirce elaborates classifications of the sciences in:

  • "A Detailed Classification of the Sciences" in Minute Logic (Feb.–Apr. 1902), Collected Papers of Charles Sanders Peirce (CP) v. 1, paragraphs 203–283[6]
  • July 1902 application to the Carnegie institution (MS L75)[7]
  • "An Outline Classification of the Sciences (CP 1.180-202)[8] in his "A Syllabus of Certain Topics in Logic" (1903), wherein his classifications of the sciences take more or less their final form

However, only in the "Detailed Classification" and the Carnegie application does he discuss the taxa which he used, which were inspired by the biological taxa of Louis Agassiz.[9]

Taxa of scientific departments
Name Characterization
("A Detailed Classification of the Sciences",[10] Feb.-Apr. 1902)		 Characterization
(Carnegie application,[11] July 1902)		 Examples
(1902 examples are the Carnegie application)
Branch of science Branches differ in fundamental purposes. Throughout a branch, there is one same animating motive (though researchers in a branch's different classes seem to live in different worlds). Peirce's three branches (1903): Science of Discovery. Science of Review. Practical Science.
Class of science Classes differ radically in observation. Observations in one class (say physical & psychological sciences) cannot yield the kind of information which another class (say pure mathematics) requires of observation. Throughout a class, researchers feel that they inquire into the same great subject (as kinds of inquiry differ but interconnect). Peirce's three classes of discovery science: Pure mathematics. Cenoscopic philosophy. The special sciences.
Order of science Two orders within one class or subclass may differ hierarchically, one more general, the other more specialized.[10] Throughout an order, researchers pursue the same general kind of inquiry (but deal with different kinds of conceptions). Peirce's 1902 example of various orders: General Physics. Biology. Geology.
Family of science Has special name, journal, society. Studies one group of facts. Researchers understand one another in a general way and naturally associate together. Throughout a family, researchers have the same general conceptions (but differ in skills). Peirce's 1902 example of various families: Astronomy. Geognosy.
Genus of science "I can give no such definitions of genera and species, not having carried my classification of the sciences to these minutiae" (of definitions of taxa; he does use the genus taxon). Throughout the genus, researchers have the same skills (but differ in acquaintance with facts in detail). Peirce's 1902 example of various genera: Optics. Electrics.
Species of science The species is the narrowest division still having societies and journals, each researcher is thoroughly well qualified in all parts of it. Peirce's 1902 example of various species: Entomology. Ichthyology.
Variety of science Researchers devote lives to a variety of science, but not so numerously as to support distinct societies and journals. Peirce's 1902 example of various varieties: Study of Kant. Study of Spinoza.

Sciences edit

In 1902, he divided science into Theoretical and Practical.[12] Theoretical Science consisted of Science of Discovery and Science of Review, the latter of which he also called "Synthetic Philosophy", a name taken from the title of the vast work, written over many years, by Herbert Spencer. Then, in 1903, he made it a three-way division: Science of Discovery, Science of Review, and Practical Science.[13] In 1903 he characterized Science of Review as:[14]

...arranging the results of discovery, beginning with digests, and going on to endeavor to form a philosophy of science. Such is the nature of Humboldt's Cosmos, of Comte's Philosophie positive, and of Spencer's Synthetic Philosophy. The classification of the sciences belongs to this department.

Peirce had already for a while divided the Sciences of Discovery into:

(1) Mathematics – draws necessary conclusions about hypothetical objects
(2) Cenoscopy – philosophy about positive phenomena in general, such as confront a person at every waking moment, rather than special classes, and not settling theoretical issues by special experiences or experiments[15]
(3) Idioscopy – the special sciences, about special classes of positive phenomena, and settling theoretical issues by special experiences or experiments[15]

Thus Peirce ends up framing two fields each of which is philosophy in a sense: cenoscopic philosophy which precedes the special sciences, and synthetic philosophy (that is to say, science of review), which does take advantage of the results of all the sciences of discovery and develops, for instance, classifications of the sciences.

Peirce opens his 1903 classification (the "Syllabus" classification) with a concise statement of method and purpose:[16]

This classification, which aims to base itself on the principal affinities of the objects classified, is concerned not with all possible sciences, nor with so many branches of knowledge, but with sciences in their present condition, as so many businesses of groups of living men. It borrows its idea from Comte's classification; namely, the idea that one science depends upon another for fundamental principles, but does not furnish such principles to that other. It turns out that in most cases the divisions are trichotomic; the First of the three members relating to universal elements or laws, the Second arranging classes of forms and seeking to bring them under universal laws, the Third going into the utmost detail, describing individual phenomena and endeavoring to explain them. But not all the divisions are of this character....

The following table is based mostly on Peirce's 1903 classification, which was more or less the final form. But see after the table for discussion of his later remarks on the divisions of logic.

Classification of the Sciences of Discovery
Classes Subclasses Orders Other Taxa (suborders, families, etc.)
I. Mathematics.

The scientific study of hypotheses which it first frames and then traces to their consequences. 		A. Mathematics of Logic.
B. Mathematics of Discrete Series.
C. Mathematics of Continua and Pseudocontinua.
(Note: By "continuum" Peirce meant, until 1908,[17] a continuum of instants (as he called them) beyond any Cantorian aleph's worth.[18] He held that such a continuum was the true subject matter of that which we now call topology, and that the reals, the complex reals, etc., constituted pseudocontinua.)
II. Cenoscopy,
or Philosophy.

(Philosophia Prima, First Philosophy.)

About positive phenomena in general, such as are available to every person at every waking moment, and not about special classes of phenomena. Does not resort to special experiences or experiments in order to settle theoretical questions. 		Epistêmy
(1902 classification only).[19]		 A. Phenomenology (or Categorics or Phaneroscopy).
(Includes the study of the cenopythagorean categories: Firstness, Secondness, and Thirdness).
B. Normative Science. i. Esthetics. (Study of the good, the admirable. Peirce reserved the spelling "aesthetics" for the study of artistic beauty.)
ii. Ethics. (Study of right and wrong).
iii. Logic
(or Semiotic or Formal Semiotic). (Study of true and false.)

(The presuppositions of reason are the locus of Peirce's truth theory and his fallibilism.)

1. Speculative Grammar
(or Philosophical or Universal Grammar)
(or Stechiology)
(Includes the classification of signs).
2. Critic
(or Logical Critic, Critical Logic, or Logic Proper).
(Includes study of the modes of inference: abduction, induction, and deduction).
3. Methodeutic
(or Speculative Rhetoric,
or Universal or Philosophical Rhetoric).
(Is the locus of Peirce's Pragmatism, and includes study of scientific method).
C. Metaphysics. i. Ontology or General. (Locus of Peirce's Scholastic Realism.)
ii. Psychical or Religious. 1. God.
2. freedom (& destiny).
3. immortality.
iii. Physical. (Locus of Peirce's Objective Idealism and his doctrines that physical space, time, and law are continuous, and that chance, mechanical necessity, and creative love are physically real and involve corresponding modes of universal evolution.)
Theôric (1902 classification only).
Peirce: "...[theôrics] only resort to special observation to settle some minute details, concerning which the testimony of general experience is possibly insufficient."[19]		 Chronotheory &
Topotheory
(1902 only)
III. Idioscopy,
or the Special Sciences.

About special classes of positive phenomena. Resorts to special experience or experiments in order to settle theoretical questions. 		[?]. Physical. i. Nomological or General. i. Molar Physics. Dynamics &
Gravitation.
ii. Molecular Physics. Elaterics (elasticity, expansibility[20]) &
Thermodynamics.
iii. Ethereal Physics. Optics &
Electrics.
ii. Classificatory.
Peirce in the 1903 Syllabus classification:[21] "Classificatory physics seems, at present, as a matter of fact, to be divided, quite irrationally and most unequally, into i, Crystallography; ii, Chemistry; iii, Biology." 		i. Crystallography
ii. Chemistry. 1. Physical.
2. Organic.
Aliphatic & Aromatic.

3. Inorganic
(elements, atomic weights, compounds, periodicity, etc.)

iii. Biology. 1. Physiology.
2. Anatomy.
iii. Descriptive. Geognosy & Astronomy.
[?]. Psychical. i. Nomological Psychics,
or Psychology. 		i. Introspectional.
ii. Experimental.
iii. Physiological.
iv. Child.
ii. Classificatory Psychics,
or Ethnology. 		1. Special Psychology. 1. Individual Psychology. 2. Psychical Heredity.
3. Abnormal Psychology. 4. Mob Psychology.
5. Race Psychology. 6. Animal Psychology.
2. Linguistics. 1. Word Linguistics.
2. Grammar ("should be a comparative science of forms of composition"[22])
3. Ethnology. 1. Ethnology of Social Developments, customs, laws, religion, and tradition.
2. Ethnology of Technology.
iii. Descriptive Psychics,
or History. 		1. History proper.
2. Biography ("which at present is rather a mass of lies than a science"[23])
3. Criticism 1. Literary criticism
2. Art criticism (criticism of military operations, criticism of architecture, etc.)

Logic's divisions later edit

In a piece which the Collected Papers editors called "Phaneroscopy" and dated as 1906, Peirce wrote (CP 4.9):[24]

...I extend logic to embrace all the necessary principles of semeiotic, and I recognize a logic of icons, and a logic of indices, as well as a logic of symbols; and in this last I recognize three divisions: Stecheotic (or stoicheiology), which I formerly called Speculative Grammar; Critic, which I formerly called Logic; and Methodeutic, which I formerly called Speculative Rhetoric

Thus the three main 1903 departments of logic were now sub-departments of the study of the logic of symbols.

In a letter to J. H. Kehler, printed in The New Elements of Mathematics v.3, p. 207 and dated 1911,[25] Peirce wrote:

I have now sketched my doctrine of Logical Critic, skipping a good deal. I recognize two other parts of Logic. One which may be called Analytic examines the nature of thought, not psychologically but simply to define what it is to doubt, to believe, to learn, etc., and then to base critic on these definitions is my real method, though in this letter I have taken the third branch of logic, Methodeutic, which shows how to conduct an inquiry. This is what the greater part of my life has been devoted to, though I base it upon Critic.

Peirce's revisions of logic's divisions
Peirce in 1902, 1903:
Logic (begins on general level
with presuppositions of reason,
logical conception of mind,
nature of belief & doubt, etc.).
A. Stechiology
  (classes of signs &
  their combinations).
B. Critic
  (modes of argument).
C. Methodeutic
  (methods of inquiry).		 Peirce in 1906:

Logic.

A. Logic of icons.
B. Logic of indices.
C. Logic of symbols.
  C1. Stechiotic.
  C2. Critic.
  C3. Methodeutic.		 Peirce in 1911:

Logic.

A. Analytic
  (what it is to doubt,
  to believe, to learn).
B. Critic.
C. Methodeutic.

There in 1911 Peirce does not mention the 1906 division into logics of icons, indices and symbols. Critic and Methodeutic appear, as in 1902 and 1903, as the second and third main departments of logic. Analytic is now the first department and the word "Stechiology" goes unused. He includes in Analytic the consideration of issues which, back in his 1902 Carnegie Institute application, he had discussed in sections on logic with headings such as "Presuppositions of Logic"[26] and "On the Logical Conception of Mind"[27] that he had placed before the sections on logic's departments (stechiology, critic, and methodeutic).[28]

On the question of the relationship between Stechiology and the Analytic that seems to have replaced it, note that, in Draft D of Memoir 15 in his 1902 Carnegie Institute application, Peirce said that stechiology[check spelling], also called grammatica speculativa, amounts to an Erkenntnisslehre, a theory of cognition, provided that that theory is stripped of matter irrelevant and inadmissible in philosophical logic, irrelevant matter such as all truths (for example, the association of ideas) established by psychologists, insofar as the special science of psychology depends on logic, not vice versa.[29] In that same Carnegie Institute application as in many other places, Peirce treated belief and doubt as issues of philosophical logic apart from psychology.

Notes edit

  1. ^ See "Development of Peirce's classification of sciences - three stages: 1889, 1898, 1903" by Tommi Vehkavaara, 2003, "Eprint". (19.4 KiB) and "The outline of Peirce's classification of sciences (1902-1911)" by Tommi Vehkavaara, 2001, "Eprint". (11.4 KiB)
  2. ^ Burch, Robert (2001, 2009), "Charles Sanders Peirce", Stanford Encyclopedia of Philosophy. Eprint. Also see Peirce's own list published 1906 in the entry "Peirce, C(harles) S" in v. 2, p. 248, American Men of Science, J. McKern Cattell, ed.
  3. ^ See Hjørland's comments .
  4. ^ Professor in knowledge organization, library science. See faculty profile page
  5. ^ See Hjørland's comments .
  6. ^ Eprint
  7. ^ Arisbe Eprint
  8. ^ Eprint and
  9. ^ CP 1.229-230, (from the "Minute Logic", 1902), Eprint
  10. ^ a b Collected Papers, v. 1, paragraph 238, 1902, Eprint
  11. ^ Manuscript L75.351-353, (in the "final draft" = actually submitted version of the Carnegie Application) July 1902, Eprint
  12. ^ Peirce (1902), Manuscript L75.355, Application to the Carnegie Institute, Arisbe Eprint
  13. ^ Peirce (1903), CP 1.181, Eprint
  14. ^ Peirce (1903), CP 1.182
  15. ^ a b Peirce borrows the terms "cenoscopy" and "idioscopy" from Jeremy Bentham. See Peirce: (1902) CP 1.239-241; (1903) CP 1.183-187; (c. 1903) CP 6.6; and (1905) CP 8.199.
  16. ^ The Collected Peirce (CP), v. 1, paragraph 180
  17. ^ See "Peirce's Clarifications of Continuity" by Jérôme Havenel, Transactions Winter 2008 pp. 68-133. From p. 119: "It is on May 26, 1908, that Peirce finally gave up his idea that in every continuum there is room for whatever collection of any multitude. From now on, there are different kinds of continua, which have different properties."
  18. ^ Peirce, C.S., "Analysis of the Methods of Mathematical Demonstration", Memoir 4, Draft C, Manuscript L75.90-102, see 99-100, Eprint
  19. ^ a b CP 1.278 Eprint
  20. ^ Compare with obsolete sense 1 in the 1911 Century Dictionary definition of elater:

    1.† Elasticity; especially the expansibility of a gas.
    It may be said that the swelling, of the compressed water in the pewter vessel lately mentioned, and the springing up of the water at the hole made by the needle, were not the effects of an internal elater of the water, but of the spring of the many little particles of air dispersed through that water. Boyle, Spring of the Air, Exp. xxii.
  21. ^ The CP 1.194
  22. ^ CP 1.200 (from "An Outline Classification of the Sciences" 1903)
  23. ^ CP 1.201 (from "An Outline Classification of the Sciences" 1903) .
  24. ^ A fuller version of the quote is at Commens Dictionary of Peirce's Terms under Stecheotic, Stoicheiology.
  25. ^ It can be viewed at the Commens Dictionary of Peirce's Terms under [1].
  26. ^ Memoir 10. Eprint.
  27. ^ Memoir 11. Eprint.
  28. ^ Memoir 13. Eprint.
  29. ^ Eprint.

References edit

  • Peirce, C.S., 1902, "An Outline Classification of the Sciences", The Collected Papers, vol. 1, pp. 203–283 (1902) Eprint, from projected book Minute Logic.
  • Peirce, C.S., 1902, "On the Classification of the Theoretic Sciences of Research", Manuscript L75.350-357, Arisbe Eprint 2013-11-03 at the Wayback Machine, from "Logic, Considered As Semeiotic", Manuscript L75, with draft sections labeled and interpolated into the final (submitted July 1902) version of the 1902 Carnegie Institute application, Joseph Ransdell, ed., Arisbe Eprint 2007-09-28 at the Wayback Machine.
  • Peirce, C.S., 1903, "A Detailed Classification of the Sciences", The Collected Papers, vol. 1, pp. 180–202 (1903) and Eprint, from "A Syllabus Of Certain Topics In Logic", the Essential Peirce, vol. 2, pp. 258–330.
  • Vehkavaara, Tommi, 2001, "The outline of Peirce's classification of sciences (1902-1911)", "Eprint" (PDF). (11.4 KiB).
  • Vehkavaara, Tommi, 2003, "Development of Peirce's classification of sciences - three stages: 1889, 1898, 1903", "Eprint" (PDF). (19.4 KiB).

External links edit

  • Arisbe: The Peirce Gateway 2022-11-30 at the Wayback Machine, Joseph Ransdell, ed.
  • The Commens Dictionary of Peirce's Terms, Mats Bergman & Sami Paavola, eds.
  • C.S. Peirce’s: Architectonic Philosophy, Albert Atkin, 2004, 2005, the Internet Encyclopedia of Philosophy.
  • Speziali, Pierre (1973). "Classification of the Sciences". In Wiener, Philip P (ed.). Dictionary of the History of Ideas. ISBN 0-684-13293-1. Retrieved 2009-12-02.
  • Classification (of the sciences) (once there, scroll down) by Professor A. C. Armstrong, Jr. (Wesleyan University) in the Dictionary of Philosophy and Psychology, James Mark Baldwin, ed., 1901–1905.
  • Peirce's first classification of sciences (1889); Peirce's classification of theoretical sciences and arts (1898); Peirce's outline classification of sciences (1903). Compiled by Tommi Vehkavaara, 2003.

April 10, 2024
classification, sciences, peirce, philosopher, charles, sanders, peirce, 1839, 1914, considerable, work, over, period, years, classification, sciences, including, mathematics, classifications, interest, both, navigating, philosophy, accomplished, polymath, sur. The philosopher Charles Sanders Peirce 1839 1914 did considerable work over a period of years on the classification of sciences including mathematics 1 His classifications are of interest both as a map for navigating his philosophy and as an accomplished polymath s survey of research in his time Peirce himself was well grounded and produced work in many research fields including logic mathematics statistics philosophy spectroscopy gravimetry geodesy chemistry and experimental psychology 2 Contents 1 Classifications 1 1 Taxa 1 2 Sciences 1 2 1 Logic s divisions later 2 Notes 3 References 4 External linksClassifications editPhilosophers have done little work on classification of the sciences and mathematics since Peirce s time Noting Peirce s important contribution Denmark s Birger Hjorland commented There is not today 2005 to my knowledge any organized research program about the classification of the sciences in any discipline or in any country 3 4 As Miksa 1998 writes the interest for this question largely died in the beginning of the 20th century 5 It is not clear whether Hjorland includes the classification of mathematics in that characterization Taxa edit In 1902 and 1903 Peirce elaborates classifications of the sciences in A Detailed Classification of the Sciences in Minute Logic Feb Apr 1902 Collected Papers of Charles Sanders Peirce CP v 1 paragraphs 203 283 6 July 1902 application to the Carnegie institution MS L75 7 An Outline Classification of the Sciences CP 1 180 202 8 in his A Syllabus of Certain Topics in Logic 1903 wherein his classifications of the sciences take more or less their final formHowever only in the Detailed Classification and the Carnegie application does he discuss the taxa which he used which were inspired by the biological taxa of Louis Agassiz 9 Taxa of scientific departments Name Characterization A Detailed Classification of the Sciences 10 Feb Apr 1902 Characterization Carnegie application 11 July 1902 Examples 1902 examples are the Carnegie application Branch of science Branches differ in fundamental purposes Throughout a branch there is one same animating motive though researchers in a branch s different classes seem to live in different worlds Peirce s three branches 1903 Science of Discovery Science of Review Practical Science Class of science Classes differ radically in observation Observations in one class say physical amp psychological sciences cannot yield the kind of information which another class say pure mathematics requires of observation Throughout a class researchers feel that they inquire into the same great subject as kinds of inquiry differ but interconnect Peirce s three classes of discovery science Pure mathematics Cenoscopic philosophy The special sciences Order of science Two orders within one class or subclass may differ hierarchically one more general the other more specialized 10 Throughout an order researchers pursue the same general kind of inquiry but deal with different kinds of conceptions Peirce s 1902 example of various orders General Physics Biology Geology Family of science Has special name journal society Studies one group of facts Researchers understand one another in a general way and naturally associate together Throughout a family researchers have the same general conceptions but differ in skills Peirce s 1902 example of various families Astronomy Geognosy Genus of science I can give no such definitions of genera and species not having carried my classification of the sciences to these minutiae of definitions of taxa he does use the genus taxon Throughout the genus researchers have the same skills but differ in acquaintance with facts in detail Peirce s 1902 example of various genera Optics Electrics Species of science The species is the narrowest division still having societies and journals each researcher is thoroughly well qualified in all parts of it Peirce s 1902 example of various species Entomology Ichthyology Variety of science Researchers devote lives to a variety of science but not so numerously as to support distinct societies and journals Peirce s 1902 example of various varieties Study of Kant Study of Spinoza Sciences edit In 1902 he divided science into Theoretical and Practical 12 Theoretical Science consisted of Science of Discovery and Science of Review the latter of which he also called Synthetic Philosophy a name taken from the title of the vast work written over many years by Herbert Spencer Then in 1903 he made it a three way division Science of Discovery Science of Review and Practical Science 13 In 1903 he characterized Science of Review as 14 arranging the results of discovery beginning with digests and going on to endeavor to form a philosophy of science Such is the nature of Humboldt s Cosmos of Comte s Philosophie positive and of Spencer s Synthetic Philosophy The classification of the sciences belongs to this department Peirce had already for a while divided the Sciences of Discovery into 1 Mathematics draws necessary conclusions about hypothetical objects 2 Cenoscopy philosophy about positive phenomena in general such as confront a person at every waking moment rather than special classes and not settling theoretical issues by special experiences or experiments 15 3 Idioscopy the special sciences about special classes of positive phenomena and settling theoretical issues by special experiences or experiments 15 Thus Peirce ends up framing two fields each of which is philosophy in a sense cenoscopic philosophy which precedes the special sciences and synthetic philosophy that is to say science of review which does take advantage of the results of all the sciences of discovery and develops for instance classifications of the sciences Peirce opens his 1903 classification the Syllabus classification with a concise statement of method and purpose 16 This classification which aims to base itself on the principal affinities of the objects classified is concerned not with all possible sciences nor with so many branches of knowledge but with sciences in their present condition as so many businesses of groups of living men It borrows its idea from Comte s classification namely the idea that one science depends upon another for fundamental principles but does not furnish such principles to that other It turns out that in most cases the divisions are trichotomic the First of the three members relating to universal elements or laws the Second arranging classes of forms and seeking to bring them under universal laws the Third going into the utmost detail describing individual phenomena and endeavoring to explain them But not all the divisions are of this character The following table is based mostly on Peirce s 1903 classification which was more or less the final form But see after the table for discussion of his later remarks on the divisions of logic Classification of the Sciences of Discovery Classes Subclasses Orders Other Taxa suborders families etc I Mathematics The scientific study of hypotheses which it first frames and then traces to their consequences A Mathematics of Logic B Mathematics of Discrete Series C Mathematics of Continua and Pseudocontinua Note By continuum Peirce meant until 1908 17 a continuum of instants as he called them beyond any Cantorian aleph s worth 18 He held that such a continuum was the true subject matter of that which we now call topology and that the reals the complex reals etc constituted pseudocontinua II Cenoscopy or Philosophy Philosophia Prima First Philosophy About positive phenomena in general such as are available to every person at every waking moment and not about special classes of phenomena Does not resort to special experiences or experiments in order to settle theoretical questions Epistemy 1902 classification only 19 A Phenomenology or Categorics or Phaneroscopy Includes the study of the cenopythagorean categories Firstness Secondness and Thirdness B Normative Science i Esthetics Study of the good the admirable Peirce reserved the spelling aesthetics for the study of artistic beauty ii Ethics Study of right and wrong iii Logic or Semiotic or Formal Semiotic Study of true and false The presuppositions of reason are the locus of Peirce s truth theory and his fallibilism 1 Speculative Grammar or Philosophical or Universal Grammar or Stechiology Includes the classification of signs 2 Critic or Logical Critic Critical Logic or Logic Proper Includes study of the modes of inference abduction induction and deduction 3 Methodeutic or Speculative Rhetoric or Universal or Philosophical Rhetoric Is the locus of Peirce s Pragmatism and includes study of scientific method C Metaphysics i Ontology or General Locus of Peirce s Scholastic Realism ii Psychical or Religious 1 God 2 freedom amp destiny 3 immortality iii Physical Locus of Peirce s Objective Idealism and his doctrines that physical space time and law are continuous and that chance mechanical necessity and creative love are physically real and involve corresponding modes of universal evolution Theoric 1902 classification only Peirce theorics only resort to special observation to settle some minute details concerning which the testimony of general experience is possibly insufficient 19 Chronotheory amp Topotheory 1902 only III Idioscopy or the Special Sciences About special classes of positive phenomena Resorts to special experience or experiments in order to settle theoretical questions Physical i Nomological or General i Molar Physics Dynamics amp Gravitation ii Molecular Physics Elaterics elasticity expansibility 20 amp Thermodynamics iii Ethereal Physics Optics amp Electrics ii Classificatory Peirce in the 1903 Syllabus classification 21 Classificatory physics seems at present as a matter of fact to be divided quite irrationally and most unequally into i Crystallography ii Chemistry iii Biology i Crystallographyii Chemistry 1 Physical 2 Organic Aliphatic amp Aromatic 3 Inorganic elements atomic weights compounds periodicity etc iii Biology 1 Physiology 2 Anatomy iii Descriptive Geognosy amp Astronomy Psychical i Nomological Psychics or Psychology i Introspectional ii Experimental iii Physiological iv Child ii Classificatory Psychics or Ethnology 1 Special Psychology 1 Individual Psychology 2 Psychical Heredity 3 Abnormal Psychology 4 Mob Psychology 5 Race Psychology 6 Animal Psychology 2 Linguistics 1 Word Linguistics 2 Grammar should be a comparative science of forms of composition 22 3 Ethnology 1 Ethnology of Social Developments customs laws religion and tradition 2 Ethnology of Technology iii Descriptive Psychics or History 1 History proper 2 Biography which at present is rather a mass of lies than a science 23 3 Criticism 1 Literary criticism 2 Art criticism criticism of military operations criticism of architecture etc Logic s divisions later edit In a piece which the Collected Papers editors called Phaneroscopy and dated as 1906 Peirce wrote CP 4 9 24 I extend logic to embrace all the necessary principles of semeiotic and I recognize a logic of icons and a logic of indices as well as a logic of symbols and in this last I recognize three divisions Stecheotic or stoicheiology which I formerly called Speculative Grammar Critic which I formerly called Logic and Methodeutic which I formerly called Speculative Rhetoric Thus the three main 1903 departments of logic were now sub departments of the study of the logic of symbols In a letter to J H Kehler printed in The New Elements of Mathematics v 3 p 207 and dated 1911 25 Peirce wrote I have now sketched my doctrine of Logical Critic skipping a good deal I recognize two other parts of Logic One which may be called Analytic examines the nature of thought not psychologically but simply to define what it is to doubt to believe to learn etc and then to base critic on these definitions is my real method though in this letter I have taken the third branch of logic Methodeutic which shows how to conduct an inquiry This is what the greater part of my life has been devoted to though I base it upon Critic Peirce s revisions of logic s divisions Peirce in 1902 1903 Logic begins on general level with presuppositions of reason logical conception of mind nature of belief amp doubt etc A Stechiology classes of signs amp their combinations B Critic modes of argument C Methodeutic methods of inquiry Peirce in 1906 Logic A Logic of icons B Logic of indices C Logic of symbols C1 Stechiotic C2 Critic C3 Methodeutic Peirce in 1911 Logic A Analytic what it is to doubt to believe to learn B Critic C Methodeutic There in 1911 Peirce does not mention the 1906 division into logics of icons indices and symbols Critic and Methodeutic appear as in 1902 and 1903 as the second and third main departments of logic Analytic is now the first department and the word Stechiology goes unused He includes in Analytic the consideration of issues which back in his 1902 Carnegie Institute application he had discussed in sections on logic with headings such as Presuppositions of Logic 26 and On the Logical Conception of Mind 27 that he had placed before the sections on logic s departments stechiology critic and methodeutic 28 On the question of the relationship between Stechiology and the Analytic that seems to have replaced it note that in Draft D of Memoir 15 in his 1902 Carnegie Institute application Peirce said that stechiology check spelling also called grammatica speculativa amounts to an Erkenntnisslehre a theory of cognition provided that that theory is stripped of matter irrelevant and inadmissible in philosophical logic irrelevant matter such as all truths for example the association of ideas established by psychologists insofar as the special science of psychology depends on logic not vice versa 29 In that same Carnegie Institute application as in many other places Peirce treated belief and doubt as issues of philosophical logic apart from psychology Notes edit See Development of Peirce s classification of sciences three stages 1889 1898 1903 by Tommi Vehkavaara 2003 Eprint 19 4 KiB and The outline of Peirce s classification of sciences 1902 1911 by Tommi Vehkavaara 2001 Eprint 11 4 KiB Burch Robert 2001 2009 Charles Sanders Peirce Stanford Encyclopedia of Philosophy Eprint Also see Peirce s own list published 1906 in the entry Peirce C harles S in v 2 p 248 American Men of Science J McKern Cattell ed See Hjorland s comments here Professor in knowledge organization library science See faculty profile page See Hjorland s comments here Eprint Arisbe Eprint Eprint and Eprint CP 1 229 230 from the Minute Logic 1902 Eprint a b Collected Papers v 1 paragraph 238 1902 Eprint Manuscript L75 351 353 in the final draft actually submitted version of the Carnegie Application July 1902 Eprint Peirce 1902 Manuscript L75 355 Application to the Carnegie Institute Arisbe Eprint Peirce 1903 CP 1 181 Eprint Peirce 1903 CP 1 182 Eprint a b Peirce borrows the terms cenoscopy and idioscopy from Jeremy Bentham See Peirce 1902 CP 1 239 241 1903 CP 1 183 187 c 1903 CP 6 6 and 1905 CP 8 199 The Collected Peirce CP v 1 paragraph 180 Eprint See Peirce s Clarifications of Continuity by Jerome Havenel Transactions Winter 2008 pp 68 133 From p 119 It is on May 26 1908 that Peirce finally gave up his idea that in every continuum there is room for whatever collection of any multitude From now on there are different kinds of continua which have different properties Peirce C S Analysis of the Methods of Mathematical Demonstration Memoir 4 Draft C Manuscript L75 90 102 see 99 100 Eprint a b CP 1 278 Eprint Compare with obsolete sense 1 in the 1911 Century Dictionary definition of elater 1 Elasticity especially the expansibility of a gas It may be said that the swelling of the compressed water in the pewter vessel lately mentioned and the springing up of the water at the hole made by the needle were not the effects of an internal elater of the water but of the spring of the many little particles of air dispersed through that water Boyle Spring of the Air Exp xxii The CP 1 194 Eprint CP 1 200 from An Outline Classification of the Sciences 1903 Eprint CP 1 201 from An Outline Classification of the Sciences 1903 Eprint A fuller version of the quote is at Commens Dictionary of Peirce s Terms under Stecheotic Stoicheiology It can be viewed at the Commens Dictionary of Peirce s Terms under 1 Memoir 10 Eprint Memoir 11 Eprint Memoir 13 Eprint Eprint References editPeirce C S 1902 An Outline Classification of the Sciences The Collected Papers vol 1 pp 203 283 1902 Eprint from projected book Minute Logic Peirce C S 1902 On the Classification of the Theoretic Sciences of Research Manuscript L75 350 357 Arisbe Eprint Archived 2013 11 03 at the Wayback Machine from Logic Considered As Semeiotic Manuscript L75 with draft sections labeled and interpolated into the final submitted July 1902 version of the 1902 Carnegie Institute application Joseph Ransdell ed Arisbe Eprint Archived 2007 09 28 at the Wayback Machine Peirce C S 1903 A Detailed Classification of the Sciences The Collected Papers vol 1 pp 180 202 1903 Eprint and Eprint from A Syllabus Of Certain Topics In Logic the Essential Peirce vol 2 pp 258 330 Vehkavaara Tommi 2001 The outline of Peirce s classification of sciences 1902 1911 Eprint PDF 11 4 KiB Vehkavaara Tommi 2003 Development of Peirce s classification of sciences three stages 1889 1898 1903 Eprint PDF 19 4 KiB External links editArisbe The Peirce Gateway Archived 2022 11 30 at the Wayback Machine Joseph Ransdell ed The Commens Dictionary of Peirce s Terms Mats Bergman amp Sami Paavola eds C S Peirce s Architectonic Philosophy Albert Atkin 2004 2005 the Internet Encyclopedia of Philosophy Speziali Pierre 1973 Classification of the Sciences In Wiener Philip P ed Dictionary of the History of Ideas ISBN 0 684 13293 1 Retrieved 2009 12 02 Classification of the sciences once there scroll down by Professor A C Armstrong Jr Wesleyan University in the Dictionary of Philosophy and Psychology James Mark Baldwin ed 1901 1905 Peirce s first classification of sciences 1889 Peirce s classification of theoretical sciences and arts 1898 Peirce s outline classification of sciences 1903 Compiled by Tommi Vehkavaara 2003 Retrieved from https en wikipedia org w index php title Classification of the sciences Peirce amp oldid 1189498391, wikipedia, wiki, book, books, library,

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