and cognition

cognition

сущ.

псих. познание, распознавание (познавательная способность, включает в себя ощущения, восприятие, познавание)

a book on human learning, memory and cognition — книга о человеческом познании, учении и памяти

See:

cognitive dissonance

Cognition

   1) Every Psychological Phenomenon Is a Cognitive Phenomenon

   As used here, the term "cognition" refers to all processes by which the sensory input is transformed, reduced, elaborated, stored, recovered, and used. It is concerned with these processes even when they operate in the absence of relevant stimulation, as in images and hallucinations....

   [G]iven such a sweeping definition, it is apparent that cognition is involved in everything a human being might possibly do; that every psychological phenomenon is a cognitive phenomenon. (Neisser, 1976, p. 4)

   2) Models of Cognition and Specific Architectures

   Man is describable as a dual processor, dual memory system with extensive input-output buffering within each system. The input-output system appears to have substantial peripheral computing power itself. But man is not modeled by a dual processor computer. The two processors of the brain are asymmetric. The semantic memory processor is a serial processor with a list structure memory. The image memory processor may very well be a sophisticated analog processor attached to an associative memory. When we propose models of cognition it would perhaps be advisable if we specified the relation of the model to this system architecture and its associated addressing system and data structure. (Hunt, 1973, pp. 370-371)

Culika-sutra (Any of the texts on cognition and epistemology in the Svetambara canon)

Религия: чулика сутра

Institute for Human and Machine Cognition

Научный термин: института когнитивных способностей человека и машин

Bibliography

 ■ Aitchison, J. (1987). Noam Chomsky: Consensus and controversy. New York: Falmer Press.

 ■ Anderson, J. R. (1980). Cognitive psychology and its implications. San Francisco: W. H. Freeman.

 ■ Anderson, J. R. (1983). The architecture of cognition. Cambridge, MA: Harvard University Press.

 ■ Anderson, J. R. (1995). Cognitive psychology and its implications (4th ed.). New York: W. H. Freeman.

 ■ Archilochus (1971). In M. L. West (Ed.), Iambi et elegi graeci (Vol. 1). Oxford: Oxford University Press.

 ■ Armstrong, D. M. (1990). The causal theory of the mind. In W. G. Lycan (Ed.), Mind and cognition: A reader (pp. 37-47). Cambridge, MA: Basil Blackwell. (Originally published in 1981 in The nature of mind and other essays, Ithaca, NY: University Press).

 ■ Atkins, P. W. (1992). Creation revisited. Oxford: W. H. Freeman & Company.

 ■ Austin, J. L. (1962). How to do things with words. Cambridge, MA: Harvard University Press.

 ■ Bacon, F. (1878). Of the proficience and advancement of learning divine and human. In The works of Francis Bacon (Vol. 1). Cambridge, MA: Hurd & Houghton.

 ■ Bacon, R. (1928). Opus majus (Vol. 2). R. B. Burke (Trans.). Philadelphia, PA: University of Pennsylvania Press.

 ■ Bar-Hillel, Y. (1960). The present status of automatic translation of languages. In F. L. Alt (Ed.), Advances in computers (Vol. 1). New York: Academic Press.

 ■ Barr, A., & E. A. Feigenbaum (Eds.) (1981). The handbook of artificial intelligence (Vol. 1). Reading, MA: Addison-Wesley.

 ■ Barr, A., & E. A. Feigenbaum (Eds.) (1982). The handbook of artificial intelligence (Vol. 2). Los Altos, CA: William Kaufman.

 ■ Barron, F. X. (1963). The needs for order and for disorder as motives in creative activity. In C. W. Taylor & F. X. Barron (Eds.), Scientific creativity: Its rec ognition and development (pp. 153-160). New York: Wiley.

 ■ Bartlett, F. C. (1932). Remembering: A study in experimental and social psychology. Cambridge: Cambridge University Press.

 ■ Bartley, S. H. (1969). Principles of perception. London: Harper & Row.

 ■ Barzun, J. (1959). The house of intellect. New York: Harper & Row.

 ■ Beach, F. A., D. O. Hebb, C. T. Morgan & H. W. Nissen (Eds.) (1960). The neu ropsychology of Lashley. New York: McGraw-Hill.

 ■ Berkeley, G. (1996). Principles of human knowledge: Three Dialogues. Oxford: Oxford University Press. (Originally published in 1710.)

 ■ Berlin, I. (1953). The hedgehog and the fox: An essay on Tolstoy's view of history. NY: Simon & Schuster.

 ■ Bierwisch, J. (1970). Semantics. In J. Lyons (Ed.), New horizons in linguistics. Baltimore: Penguin Books.

 ■ Black, H. C. (1951). Black's law dictionary. St. Paul, MN: West Publishing.

 ■ Bloom, A. (1981). The linguistic shaping of thought: A study in the impact of language on thinking in China and the West. Hillsdale, NJ: Erlbaum.

 ■ Bobrow, D. G., & D. A. Norman (1975). Some principles of memory schemata. In D. G. Bobrow & A. Collins (Eds.), Representation and understanding: Stud ies in Cognitive Science (pp. 131-149). New York: Academic Press.

 ■ Boden, M. A. (1977). Artificial intelligence and natural man. New York: Basic Books.

 ■ Boden, M. A. (1981). Minds and mechanisms. Ithaca, NY: Cornell University Press.

 ■ Boden, M. A. (1990a). The creative mind: Myths and mechanisms. London: Cardinal.

 ■ Boden, M. A. (1990b). The philosophy of artificial intelligence. Oxford: Oxford University Press.

 ■ Boden, M. A. (1994). Precis of The creative mind: Myths and mechanisms. Behavioral and brain sciences 17, 519-570.

 ■ Boden, M. (1996). Creativity. In M. Boden (Ed.), Artificial Intelligence (2nd ed.). San Diego: Academic Press.

 ■ Bolter, J. D. (1984). Turing's man: Western culture in the computer age. Chapel Hill, NC: University of North Carolina Press.

 ■ Bolton, N. (1972). The psychology of thinking. London: Methuen.

 ■ Bourne, L. E. (1973). Some forms of cognition: A critical analysis of several papers. In R. Solso (Ed.), Contemporary issues in cognitive psychology (pp. 313324). Loyola Symposium on Cognitive Psychology (Chicago 1972). Washington, DC: Winston.

 ■ Bransford, J. D., N. S. McCarrell, J. J. Franks & K. E. Nitsch (1977). Toward unexplaining memory. In R. Shaw & J. D. Bransford (Eds.), Perceiving, acting, and knowing (pp. 431-466). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Breger, L. (1981). Freud's unfinished journey. London: Routledge & Kegan Paul.

 ■ Brehmer, B. (1986). In one word: Not from experience. In H. R. Arkes & K. Hammond (Eds.), Judgment and decision making: An interdisciplinary reader (pp. 705-719). Cambridge: Cambridge University Press.

 ■ Bresnan, J. (1978). A realistic transformational grammar. In M. Halle, J. Bresnan & G. A. Miller (Eds.), Linguistic theory and psychological reality (pp. 1-59). Cambridge, MA: MIT Press.

 ■ Brislin, R. W., W. J. Lonner & R. M. Thorndike (Eds.) (1973). Cross- cultural research methods. New York: Wiley.

 ■ Bronowski, J. (1977). A sense of the future: Essays in natural philosophy. P. E. Ariotti with R. Bronowski (Eds.). Cambridge, MA: MIT Press.

 ■ Bronowski, J. (1978). The origins of knowledge and imagination. New Haven, CT: Yale University Press.

 ■ Brown, R. O. (1973). A first language: The early stages. Cambridge, MA: Harvard University Press.

 ■ Brown, T. (1970). Lectures on the philosophy of the human mind. In R. Brown (Ed.), Between Hume and Mill: An anthology of British philosophy- 1749- 1843 (pp. 330-387). New York: Random House/Modern Library.

 ■ Bruner, J. S., J. Goodnow & G. Austin (1956). A study of thinking. New York: Wiley.

 ■ Calvin, W. H. (1990). The cerebral symphony: Seashore reflections on the structure of consciousness. New York: Bantam.

 ■ Campbell, J. (1982). Grammatical man: Information, entropy, language, and life. New York: Simon & Schuster.

 ■ Campbell, J. (1989). The improbable machine. New York: Simon & Schuster.

 ■ Carlyle, T. (1966). On heroes, hero- worship and the heroic in history. Lincoln: University of Nebraska Press. (Originally published in 1841.)

 ■ Carnap, R. (1959). The elimination of metaphysics through logical analysis of language [Ueberwindung der Metaphysik durch logische Analyse der Sprache]. In A. J. Ayer (Ed.), Logical positivism (pp. 60-81) A. Pap (Trans). New York: Free Press. (Originally published in 1932.)

 ■ Cassirer, E. (1946). Language and myth. New York: Harper and Brothers. Reprinted. New York: Dover Publications, 1953.

 ■ Cattell, R. B., & H. J. Butcher (1970). Creativity and personality. In P. E. Vernon (Ed.), Creativity. Harmondsworth, England: Penguin Books.

 ■ Caudill, M., & C. Butler (1990). Naturally intelligent systems. Cambridge, MA: MIT Press/Bradford Books.

 ■ Chandrasekaran, B. (1990). What kind of information processing is intelligence? A perspective on AI paradigms and a proposal. In D. Partridge & R. Wilks (Eds.), The foundations of artificial intelligence: A sourcebook (pp. 14-46). Cambridge: Cambridge University Press.

 ■ Charniak, E., & McDermott, D. (1985). Introduction to artificial intelligence. Reading, MA: Addison-Wesley.

 ■ Chase, W. G., & H. A. Simon (1988). The mind's eye in chess. In A. Collins & E. E. Smith (Eds.), Readings in cognitive science: A perspective from psychology and artificial intelligence (pp. 461-493). San Mateo, CA: Kaufmann.

 ■ Cheney, D. L., & R. M. Seyfarth (1990). How monkeys see the world: Inside the mind of another species. Chicago: University of Chicago Press.

 ■ Chi, M.T.H., R. Glaser & E. Rees (1982). Expertise in problem solving. In R. J. Sternberg (Ed.), Advances in the psychology of human intelligence (pp. 7-73). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Chomsky, N. (1957). Syntactic structures. The Hague: Mouton. Janua Linguarum.

 ■ Chomsky, N. (1964). A transformational approach to syntax. In J. A. Fodor & J. J. Katz (Eds.), The structure of language: Readings in the philosophy of lan guage (pp. 211-245). Englewood Cliffs, NJ: Prentice-Hall.

 ■ Chomsky, N. (1965). Aspects of the theory of syntax. Cambridge, MA: MIT Press.

 ■ Chomsky, N. (1972). Language and mind (enlarged ed.). New York: Harcourt Brace Jovanovich.

 ■ Chomsky, N. (1979). Language and responsibility. New York: Pantheon.

 ■ Chomsky, N. (1986). Knowledge of language: Its nature, origin and use. New York: Praeger Special Studies.

 ■ Churchland, P. (1979). Scientific realism and the plasticity of mind. New York: Cambridge University Press.

 ■ Churchland, P. M. (1989). A neurocomputational perspective: The nature of mind and the structure of science. Cambridge, MA: MIT Press.

 ■ Churchland, P. S. (1986). Neurophilosophy. Cambridge, MA: MIT Press/Bradford Books.

 ■ Clark, A. (1996). Philosophical Foundations. In M. A. Boden (Ed.), Artificial in telligence (2nd ed.). San Diego: Academic Press.

 ■ Clark, H. H., & T. B. Carlson (1981). Context for comprehension. In J. Long & A. Baddeley (Eds.), Attention and performance (Vol. 9, pp. 313-330). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Clarke, A. C. (1984). Profiles of the future: An inquiry into the limits of the possible. New York: Holt, Rinehart & Winston.

 ■ Claxton, G. (1980). Cognitive psychology: A suitable case for what sort of treatment? In G. Claxton (Ed.), Cognitive psychology: New directions (pp. 1-25). London: Routledge & Kegan Paul.

 ■ Code, M. (1985). Order and organism. Albany, NY: State University of New York Press.

 ■ Collingwood, R. G. (1972). The idea of history. New York: Oxford University Press.

 ■ Coopersmith, S. (1967). The antecedents of self- esteem. San Francisco: W. H. Freeman.

 ■ Copland, A. (1952). Music and imagination. London: Oxford University Press.

 ■ Coren, S. (1994). The intelligence of dogs. New York: Bantam Books.

 ■ Cottingham, J. (Ed.) (1996). Western philosophy: An anthology. Oxford: Blackwell Publishers.

 ■ Cox, C. (1926). The early mental traits of three hundred geniuses. Stanford, CA: Stanford University Press.

 ■ Craik, K.J.W. (1943). The nature of explanation. Cambridge: Cambridge University Press.

 ■ Cronbach, L. J. (1990). Essentials of psychological testing (5th ed.). New York: HarperCollins.

 ■ Cronbach, L. J., & R. E. Snow (1977). Aptitudes and instructional methods. New York: Irvington. Paperback edition, 1981.

 ■ Csikszentmihalyi, M. (1993). The evolving self. New York: Harper Perennial.

 ■ Culler, J. (1976). Ferdinand de Saussure. New York: Penguin Books.

 ■ Curtius, E. R. (1973). European literature and the Latin Middle Ages. W. R. Trask (Trans.). Princeton, NJ: Princeton University Press.

 ■ D'Alembert, J.L.R. (1963). Preliminary discourse to the encyclopedia of Diderot. R. N. Schwab (Trans.). Indianapolis: Bobbs-Merrill.

 ■ Damasio, A. (1994). Descartes' error: Emotion, reason, and the human brain. New York: Avon.

 ■ Dampier, W. C. (1966). A history of modern science. Cambridge: Cambridge University Press.

 ■ Darwin, C. (1911). The life and letters of Charles Darwin (Vol. 1). Francis Darwin (Ed.). New York: Appleton.

 ■ Davidson, D. (1970) Mental events. In L. Foster & J. W. Swanson (Eds.), Experience and theory (pp. 79-101). Amherst: University of Massachussetts Press.

 ■ Davies, P. (1995). About time: Einstein's unfinished revolution. New York: Simon & Schuster/Touchstone.

 ■ Davis, R., & J. J. King (1977). An overview of production systems. In E. Elcock & D. Michie (Eds.), Machine intelligence 8. Chichester, England: Ellis Horwood.

 ■ Davis, R., & D. B. Lenat (1982). Knowledge- based systems in artificial intelligence. New York: McGraw-Hill.

 ■ Dawkins, R. (1982). The extended phenotype: The gene as the unit of selection. Oxford: W. H. Freeman.

 ■ deKleer, J., & J. S. Brown (1983). Assumptions and ambiguities in mechanistic mental models (1983). In D. Gentner & A. L. Stevens (Eds.), Mental modes (pp. 155-190). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Dennett, D. C. (1978a). Brainstorms: Philosophical essays on mind and psychology. Montgomery, VT: Bradford Books.

 ■ Dennett, D. C. (1978b). Toward a cognitive theory of consciousness. In D. C. Dennett, Brainstorms: Philosophical Essays on Mind and Psychology. Montgomery, VT: Bradford Books.

 ■ Dennett, D. C. (1995). Darwin's dangerous idea: Evolution and the meanings of life. New York: Simon & Schuster/Touchstone.

 ■ Descartes, R. (1897-1910). Traite de l'homme. In Oeuvres de Descartes (Vol. 11, pp. 119-215). Paris: Charles Adam & Paul Tannery. (Originally published in 1634.)

 ■ Descartes, R. (1950). Discourse on method. L. J. Lafleur (Trans.). New York: Liberal Arts Press. (Originally published in 1637.)

 ■ Descartes, R. (1951). Meditation on first philosophy. L. J. Lafleur (Trans.). New York: Liberal Arts Press. (Originally published in 1641.)

 ■ Descartes, R. (1955). The philosophical works of Descartes. E. S. Haldane and G.R.T. Ross (Trans.). New York: Dover. (Originally published in 1911 by Cambridge University Press.)

 ■ Descartes, R. (1967). Discourse on method (Pt. V). In E. S. Haldane and G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 106-118). Cambridge: Cambridge University Press. (Originally published in 1637.)

 ■ Descartes, R. (1970a). Discourse on method. In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 181-200). Cambridge: Cambridge University Press. (Originally published in 1637.)

 ■ Descartes, R. (1970b). Principles of philosophy. In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 178-291). Cambridge: Cambridge University Press. (Originally published in 1644.)

 ■ Descartes, R. (1984). Meditations on first philosophy. In J. Cottingham, R. Stoothoff & D. Murduch (Trans.), The philosophical works of Descartes (Vol. 2). Cambridge: Cambridge University Press. (Originally published in 1641.)

 ■ Descartes, R. (1986). Meditations on first philosophy. J. Cottingham (Trans.). Cambridge: Cambridge University Press. (Originally published in 1641 as Med itationes de prima philosophia.)

 ■ deWulf, M. (1956). An introduction to scholastic philosophy. Mineola, NY: Dover Books.

 ■ Dixon, N. F. (1981). Preconscious processing. London: Wiley.

 ■ Doyle, A. C. (1986). The Boscombe Valley mystery. In Sherlock Holmes: The com plete novels and stories (Vol. 1). New York: Bantam.

 ■ Dreyfus, H., & S. Dreyfus (1986). Mind over machine. New York: Free Press.

 ■ Dreyfus, H. L. (1972). What computers can't do: The limits of artificial intelligence (revised ed.). New York: Harper & Row.

 ■ Dreyfus, H. L., & S. E. Dreyfus (1986). Mind over machine: The power of human intuition and expertise in the era of the computer. New York: Free Press.

 ■ Edelman, G. M. (1992). Bright air, brilliant fire: On the matter of the mind. New York: Basic Books.

 ■ Ehrenzweig, A. (1967). The hidden order of art. London: Weidenfeld & Nicolson.

 ■ Einstein, A., & L. Infeld (1938). The evolution of physics. New York: Simon & Schuster.

 ■ Eisenstein, S. (1947). Film sense. New York: Harcourt, Brace & World.

 ■ Everdell, W. R. (1997). The first moderns. Chicago: University of Chicago Press.

 ■ Eysenck, M. W. (1977). Human memory: Theory, research and individual difference. Oxford: Pergamon.

 ■ Eysenck, M. W. (1982). Attention and arousal: Cognition and performance. Berlin: Springer.

 ■ Eysenck, M. W. (1984). A handbook of cognitive psychology. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Fancher, R. E. (1979). Pioneers of psychology. New York: W. W. Norton.

 ■ Farrell, B. A. (1981). The standing of psychoanalysis. New York: Oxford University Press.

 ■ Feldman, D. H. (1980). Beyond universals in cognitive development. Norwood, NJ: Ablex.

 ■ Fetzer, J. H. (1996). Philosophy and cognitive science (2nd ed.). New York: Paragon House.

 ■ Finke, R. A. (1990). Creative imagery: Discoveries and inventions in visualization. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Flanagan, O. (1991). The science of the mind. Cambridge MA: MIT Press/Bradford Books.

 ■ Fodor, J. (1983). The modularity of mind. Cambridge, MA: MIT Press/Bradford Books.

 ■ Frege, G. (1972). Conceptual notation. T. W. Bynum (Trans.). Oxford: Clarendon Press. (Originally published in 1879.)

 ■ Frege, G. (1979). Logic. In H. Hermes, F. Kambartel & F. Kaulbach (Eds.), Gottlob Frege: Posthumous writings. Chicago: University of Chicago Press. (Originally published in 1879-1891.)

 ■ Freud, S. (1959). Creative writers and day-dreaming. In J. Strachey (Ed.), The standard edition of the complete psychological works of Sigmund Freud (Vol. 9, pp. 143-153). London: Hogarth Press.

 ■ Freud, S. (1966). Project for a scientific psychology. In J. Strachey (Ed.), The stan dard edition of the complete psychological works of Sigmund Freud (Vol. 1, pp. 295-398). London: Hogarth Press. (Originally published in 1950 as Aus den AnfaЁngen der Psychoanalyse, in London by Imago Publishing.)

 ■ Freud, S. (1976). Lecture 18-Fixation to traumas-the unconscious. In J. Strachey (Ed.), The standard edition of the complete psychological works of Sigmund Freud (Vol. 16, p. 285). London: Hogarth Press.

 ■ Galileo, G. (1990). Il saggiatore [The assayer]. In S. Drake (Ed.), Discoveries and opinions of Galileo. New York: Anchor Books. (Originally published in 1623.)

 ■ Gassendi, P. (1970). Letter to Descartes. In "Objections and replies." In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 2, pp. 179-240). Cambridge: Cambridge University Press. (Originally published in 1641.)

 ■ Gazzaniga, M. S. (1988). Mind matters: How mind and brain interact to create our conscious lives. Boston: Houghton Mifflin in association with MIT Press/Bradford Books.

 ■ Genesereth, M. R., & N. J. Nilsson (1987). Logical foundations of artificial intelligence. Palo Alto, CA: Morgan Kaufmann.

 ■ Ghiselin, B. (1952). The creative process. New York: Mentor.

 ■ Ghiselin, B. (1985). The creative process. Berkeley, CA: University of California Press. (Originally published in 1952.)

 ■ Gilhooly, K. J. (1996). Thinking: Directed, undirected and creative (3rd ed.). London: Academic Press.

 ■ Glass, A. L., K. J. Holyoak & J. L. Santa (1979). Cognition. Reading, MA: AddisonWesley.

 ■ Goody, J. (1977). The domestication of the savage mind. Cambridge: Cambridge University Press.

 ■ Gruber, H. E. (1980). Darwin on man: A psychological study of scientific creativity (2nd ed.). Chicago: University of Chicago Press.

 ■ Gruber, H. E., & S. Davis (1988). Inching our way up Mount Olympus: The evolving systems approach to creative thinking. In R. J. Sternberg (Ed.), The nature of creativity: Contemporary psychological perspectives. Cambridge: Cambridge University Press.

 ■ Guthrie, E. R. (1972). The psychology of learning. New York: Harper. (Originally published in 1935.)

 ■ Habermas, J. (1972). Knowledge and human interests. Boston: Beacon Press.

 ■ Hadamard, J. (1945). The psychology of invention in the mathematical field. Princeton, NJ: Princeton University Press.

 ■ Hand, D. J. (1985). Artificial intelligence and psychiatry. Cambridge: Cambridge University Press.

 ■ Harris, M. (1981). The language myth. London: Duckworth.

 ■ Haugeland, J. (Ed.) (1981). Mind design: Philosophy, psychology, artificial intelligence. Cambridge, MA: MIT Press/Bradford Books.

 ■ Haugeland, J. (1981a). The nature and plausibility of cognitivism. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 243-281). Cambridge, MA: MIT Press.

 ■ Haugeland, J. (1981b). Semantic engines: An introduction to mind design. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 1-34). Cambridge, MA: MIT Press/Bradford Books.

 ■ Haugeland, J. (1985). Artificial intelligence: The very idea. Cambridge, MA: MIT Press.

 ■ Hawkes, T. (1977). Structuralism and semiotics. Berkeley: University of California Press.

 ■ Hebb, D. O. (1949). The organisation of behaviour. New York: Wiley.

 ■ Hebb, D. O. (1958). A textbook of psychology. Philadelphia: Saunders.

 ■ Hegel, G.W.F. (1910). The phenomenology of mind. J. B. Baille (Trans.). London: Sonnenschein. (Originally published as Phaenomenologie des Geistes, 1807.)

 ■ Heisenberg, W. (1958). Physics and philosophy. New York: Harper & Row.

 ■ Hempel, C. G. (1966). Philosophy of natural science. Englewood Cliffs, NJ: PrenticeHall.

 ■ Herman, A. (1997). The idea of decline in Western history. New York: Free Press.

 ■ Herrnstein, R. J., & E. G. Boring (Eds.) (1965). A source book in the history of psy chology. Cambridge, MA: Harvard University Press.

 ■ Herzmann, E. (1964). Mozart's creative process. In P. H. Lang (Ed.), The creative world of Mozart (pp. 17-30). London: Oldbourne Press.

 ■ Hilgard, E. R. (1957). Introduction to psychology. London: Methuen.

 ■ Hobbes, T. (1651). Leviathan. London: Crooke.

 ■ Hofstadter, D. R. (1979). Goedel, Escher, Bach: An eternal golden braid. New York: Basic Books.

 ■ Holliday, S. G., & M. J. Chandler (1986). Wisdom: Explorations in adult competence. Basel, Switzerland: Karger.

 ■ Horn, J. L. (1986). In R. J. Sternberg (Ed.), Advances in the psychology of human intelligence (Vol. 3). Hillsdale, NJ: Erlbaum.

 ■ Hull, C. (1943). Principles of behavior. New York: Appleton-Century-Crofts.

 ■ Hume, D. (1955). An inquiry concerning human understanding. New York: Liberal Arts Press. (Originally published in 1748.)

 ■ Hume, D. (1975). An enquiry concerning human understanding. In L. A. SelbyBigge (Ed.), Hume's enquiries (3rd. ed., revised P. H. Nidditch). Oxford: Clarendon. (Spelling and punctuation revised.) (Originally published in 1748.)

 ■ Hume, D. (1978). A treatise of human nature. L. A. Selby-Bigge (Ed.), Hume's enquiries (3rd. ed., revised P. H. Nidditch). Oxford: Clarendon. (With some modifications of spelling and punctuation.) (Originally published in 1690.)

 ■ Hunt, E. (1973). The memory we must have. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language. (pp. 343-371) San Francisco: W. H. Freeman.

 ■ Husserl, E. (1960). Cartesian meditations. The Hague: Martinus Nijhoff.

 ■ Inhelder, B., & J. Piaget (1958). The growth of logical thinking from childhood to adolescence. New York: Basic Books. (Originally published in 1955 as De la logique de l'enfant a` la logique de l'adolescent. [Paris: Presses Universitaire de France])

 ■ James, W. (1890a). The principles of psychology (Vol. 1). New York: Dover Books.

 ■ James, W. (1890b). The principles of psychology. New York: Henry Holt.

 ■ Jevons, W. S. (1900). The principles of science (2nd ed.). London: Macmillan.

 ■ Johnson, G. (1986). Machinery of the mind: Inside the new science of artificial intelli gence. New York: Random House.

 ■ Johnson, M. L. (1988). Mind, language, machine. New York: St. Martin's Press.

 ■ Johnson-Laird, P. N. (1983). Mental models: Toward a cognitive science of language, inference, and consciousness. Cambridge, MA: Harvard University Press.

 ■ Johnson-Laird, P. N. (1988). The computer and the mind: An introduction to cognitive science. Cambridge, MA: Harvard University Press.

 ■ Jones, E. (1961). The life and work of Sigmund Freud. L. Trilling & S. Marcus (Eds.). London: Hogarth.

 ■ Jones, R. V. (1985). Complementarity as a way of life. In A. P. French & P. J. Kennedy (Eds.), Niels Bohr: A centenary volume. Cambridge, MA: Harvard University Press.

 ■ Kant, I. (1933). Critique of Pure Reason (2nd ed.). N. K. Smith (Trans.). London: Macmillan. (Originally published in 1781 as Kritik der reinen Vernunft.)

 ■ Kant, I. (1891). Solution of the general problems of the Prolegomena. In E. Belfort (Trans.), Kant's Prolegomena. London: Bell. (With minor modifications.) (Originally published in 1783.)

 ■ Katona, G. (1940). Organizing and memorizing: Studies in the psychology of learning and teaching. New York: Columbia University Press.

 ■ Kaufman, A. S. (1979). Intelligent testing with the WISC-R. New York: Wiley.

 ■ Koestler, A. (1964). The act of creation. New York: Arkana (Penguin).

 ■ Kohlberg, L. (1971). From is to ought. In T. Mischel (Ed.), Cognitive development and epistemology. (pp. 151-235) New York: Academic Press.

 ■ KoЁhler, W. (1925). The mentality of apes. New York: Liveright.

 ■ KoЁhler, W. (1927). The mentality of apes (2nd ed.). Ella Winter (Trans.). London: Routledge & Kegan Paul.

 ■ KoЁhler, W. (1930). Gestalt psychology. London: G. Bell.

 ■ KoЁhler, W. (1947). Gestalt psychology. New York: Liveright.

 ■ KoЁhler, W. (1969). The task of Gestalt psychology. Princeton, NJ: Princeton University Press.

 ■ Kuhn, T. (1970). The structure of scientific revolutions (2nd ed.). Chicago: University of Chicago Press.

 ■ Langer, E. J. (1989). Mindfulness. Reading, MA: Addison-Wesley.

 ■ Langer, S. (1962). Philosophical sketches. Baltimore: Johns Hopkins University Press.

 ■ Langley, P., H. A. Simon, G. L. Bradshaw & J. M. Zytkow (1987). Scientific dis covery: Computational explorations of the creative process. Cambridge, MA: MIT Press.

 ■ Lashley, K. S. (1951). The problem of serial order in behavior. In L. A. Jeffress (Ed.), Cerebral mechanisms in behavior, the Hixon Symposium (pp. 112-146) New York: Wiley.

 ■ LeDoux, J. E., & W. Hirst (1986). Mind and brain: Dialogues in cognitive neuroscience. Cambridge: Cambridge University Press.

 ■ Lehnert, W. (1978). The process of question answering. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Leiber, J. (1991). Invitation to cognitive science. Oxford: Blackwell.

 ■ Lenat, D. B., & G. Harris (1978). Designing a rule system that searches for scientific discoveries. In D. A. Waterman & F. Hayes-Roth (Eds.), Pattern directed inference systems (pp. 25-52) New York: Academic Press.

 ■ Levenson, T. (1995). Measure for measure: A musical history of science. New York: Touchstone. (Originally published in 1994.)

 ■ Leґvi-Strauss, C. (1963). Structural anthropology. C. Jacobson & B. Grundfest Schoepf (Trans.). New York: Basic Books. (Originally published in 1958.)

 ■ Levine, M. W., & J. M. Schefner (1981). Fundamentals of sensation and perception. London: Addison-Wesley.

 ■ Lewis, C. I. (1946). An analysis of knowledge and valuation. LaSalle, IL: Open Court.

 ■ Lighthill, J. (1972). A report on artificial intelligence. Unpublished manuscript, Science Research Council.

 ■ Lipman, M., A. M. Sharp & F. S. Oscanyan (1980). Philosophy in the classroom. Philadelphia: Temple University Press.

 ■ Lippmann, W. (1965). Public opinion. New York: Free Press. (Originally published in 1922.)

 ■ Locke, J. (1956). An essay concerning human understanding. Chicago: Henry Regnery Co. (Originally published in 1690.)

 ■ Locke, J. (1975). An essay concerning human understanding. P. H. Nidditch (Ed.). Oxford: Clarendon. (Originally published in 1690.) (With spelling and punctuation modernized and some minor modifications of phrasing.)

 ■ Lopate, P. (1994). The art of the personal essay. New York: Doubleday/Anchor Books.

 ■ Lorimer, F. (1929). The growth of reason. London: Kegan Paul. Machlup, F., & U. Mansfield (Eds.) (1983). The study of information. New York: Wiley.

 ■ Manguel, A. (1996). A history of reading. New York: Viking.

 ■ Margolis, H. (1987). Patterns, thinking, and cognition. Chicago: University of Chicago Press.

 ■ Markey, J. F. (1928). The symbolic process. London: Kegan Paul.

 ■ Martin, R. M. (1969). On Ziff's "Natural and formal languages." In S. Hook (Ed.), Language and philosophy: A symposium (pp. 249-263). New York: New York University Press.

 ■ Mazlish, B. (1993). The fourth discontinuity: the co- evolution of humans and machines. New Haven, CT: Yale University Press.

 ■ McCarthy, J., & P. J. Hayes (1969). Some philosophical problems from the standpoint of artificial intelligence. In B. Meltzer & D. Michie (Eds.), Machine intelligence 4. Edinburgh: Edinburgh University Press.

 ■ McClelland, J. L., D. E. Rumelhart & G. E. Hinton (1986). The appeal of parallel distributed processing. In D. E. Rumelhart, J. L. McClelland & the PDP Research Group (Eds.), Parallel distributed processing: Explorations in the mi crostructure of cognition (Vol. 1, pp. 3-40). Cambridge, MA: MIT Press/ Bradford Books.

 ■ McCorduck, P. (1979). Machines who think. San Francisco: W. H. Freeman.

 ■ McLaughlin, T. (1970). Music and communication. London: Faber & Faber.

 ■ Mednick, S. A. (1962). The associative basis of the creative process. Psychological Review 69, 431-436.

 ■ Meehl, P. E., & C. J. Golden (1982). Taxometric methods. In Kendall, P. C., & Butcher, J. N. (Eds.), Handbook of research methods in clinical psychology (pp. 127-182). New York: Wiley.

 ■ Mehler, J., E.C.T. Walker & M. Garrett (Eds.) (1982). Perspectives on mental rep resentation: Experimental and theoretical studies of cognitive processes and ca pacities. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Mill, J. S. (1900). A system of logic, ratiocinative and inductive: Being a connected view of the principles of evidence and the methods of scientific investigation. London: Longmans, Green.

 ■ Miller, G. A. (1979, June). A very personal history. Talk to the Cognitive Science Workshop, Cambridge, MA.

 ■ Miller, J. (1983). States of mind. New York: Pantheon Books.

 ■ Minsky, M. (1975). A framework for representing knowledge. In P. H. Winston (Ed.), The psychology of computer vision (pp. 211-277). New York: McGrawHill.

 ■ Minsky, M., & S. Papert (1973). Artificial intelligence. Condon Lectures, Oregon State System of Higher Education, Eugene, Oregon.

 ■ Minsky, M. L. (1986). The society of mind. New York: Simon & Schuster.

 ■ Mischel, T. (1976). Psychological explanations and their vicissitudes. In J. K. Cole & W. J. Arnold (Eds.), Nebraska Symposium on motivation (Vol. 23). Lincoln, NB: University of Nebraska Press.

 ■ Morford, M.P.O., & R. J. Lenardon (1995). Classical mythology (5th ed.). New York: Longman.

 ■ Murdoch, I. (1954). Under the net. New York: Penguin.

 ■ Nagel, E. (1959). Methodological issues in psychoanalytic theory. In S. Hook (Ed.), Psychoanalysis, scientific method, and philosophy: A symposium. New York: New York University Press.

 ■ Nagel, T. (1979). Mortal questions. London: Cambridge University Press.

 ■ Nagel, T. (1986). The view from nowhere. Oxford: Oxford University Press.

 ■ Neisser, U. (1967). Cognitive psychology. New York: Appleton-Century-Crofts.

 ■ Neisser, U. (1972). Changing conceptions of imagery. In P. W. Sheehan (Ed.), The function and nature of imagery (pp. 233-251). London: Academic Press.

 ■ Neisser, U. (1976). Cognition and reality. San Francisco: W. H. Freeman.

 ■ Neisser, U. (1978). Memory: What are the important questions? In M. M. Gruneberg, P. E. Morris & R. N. Sykes (Eds.), Practical aspects of memory (pp. 3-24). London: Academic Press.

 ■ Neisser, U. (1979). The concept of intelligence. In R. J. Sternberg & D. K. Detterman (Eds.), Human intelligence: Perspectives on its theory and measurement (pp. 179-190). Norwood, NJ: Ablex.

 ■ Nersessian, N. (1992). How do scientists think? Capturing the dynamics of conceptual change in science. In R. N. Giere (Ed.), Cognitive models of science (pp. 3-44). Minneapolis: University of Minnesota Press.

 ■ Newell, A. (1973a). Artificial intelligence and the concept of mind. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language (pp. 1-60). San Francisco: W. H. Freeman.

 ■ Newell, A. (1973b). You can't play 20 questions with nature and win. In W. G. Chase (Ed.), Visual information processing (pp. 283-310). New York: Academic Press.

 ■ Newell, A., & H. A. Simon (1963). GPS: A program that simulates human thought. In E. A. Feigenbaum & J. Feldman (Eds.), Computers and thought (pp. 279-293). New York & McGraw-Hill.

 ■ Newell, A., & H. A. Simon (1972). Human problem solving. Englewood Cliffs, NJ: Prentice-Hall.

 ■ Nietzsche, F. (1966). Beyond good and evil. W. Kaufmann (Trans.). New York: Vintage. (Originally published in 1885.)

 ■ Nilsson, N. J. (1971). Problem- solving methods in artificial intelligence. New York: McGraw-Hill.

 ■ Nussbaum, M. C. (1978). Aristotle's Princeton University Press. De Motu Anamalium. Princeton, NJ:

 ■ Oersted, H. C. (1920). Thermo-electricity. In Kirstine Meyer (Ed.), H. C. Oersted, Natuurvidenskabelige Skrifter (Vol. 2). Copenhagen: n.p. (Originally published in 1830 in The Edinburgh encyclopaedia.)

 ■ Ong, W. J. (1982). Orality and literacy: The technologizing of the word. London: Methuen.

 ■ Onians, R. B. (1954). The origins of European thought. Cambridge, MA: Cambridge University Press.

 ■ Osgood, C. E. (1960). Method and theory in experimental psychology. New York: Oxford University Press. (Originally published in 1953.)

 ■ Osgood, C. E. (1966). Language universals and psycholinguistics. In J. H. Greenberg (Ed.), Universals of language (2nd ed., pp. 299-322). Cambridge, MA: MIT Press.

 ■ Palmer, R. E. (1969). Hermeneutics. Evanston, IL: Northwestern University Press.

 ■ Peirce, C. S. (1934). Some consequences of four incapacities-Man, a sign. In C. Hartsborne & P. Weiss (Eds.), Collected papers of Charles Saunders Peirce (Vol. 5, pp. 185-189). Cambridge, MA: Harvard University Press.

 ■ Penfield, W. (1959). In W. Penfield & L. Roberts, Speech and brain mechanisms. Princeton, NJ: Princeton University Press.

 ■ Penrose, R. (1994). Shadows of the mind: A search for the missing science of conscious ness. Oxford: Oxford University Press.

 ■ Perkins, D. N. (1981). The mind's best work. Cambridge, MA: Harvard University Press.

 ■ Peterfreund, E. (1986). The heuristic approach to psychoanalytic therapy. In

 ■ J. Reppen (Ed.), Analysts at work, (pp. 127-144). Hillsdale, NJ: Analytic Press.

 ■ Piaget, J. (1952). The origin of intelligence in children. New York: International Universities Press. (Originally published in 1936.)

 ■ Piaget, J. (1954). Le langage et les opeґrations intellectuelles. Proble` mes de psycho linguistique. Symposium de l'Association de Psychologie Scientifique de Langue Francёaise. Paris: Presses Universitaires de France.

 ■ Piaget, J. (1977). Problems of equilibration. In H. E. Gruber & J. J. Voneche (Eds.), The essential Piaget (pp. 838-841). London: Routlege & Kegan Paul. (Originally published in 1975 as L'eґquilibration des structures cognitives [Paris: Presses Universitaires de France].)

 ■ Piaget, J., & B. Inhelder. (1973). Memory and intelligence. New York: Basic Books.

 ■ Pinker, S. (1994). The language instinct. New York: Morrow.

 ■ Pinker, S. (1996). Facts about human language relevant to its evolution. In J.-P. Changeux & J. Chavaillon (Eds.), Origins of the human brain. A symposium of the Fyssen foundation (pp. 262-283). Oxford: Clarendon Press. Planck, M. (1949). Scientific autobiography and other papers. F. Gaynor (Trans.). New York: Philosophical Library.

 ■ Planck, M. (1990). Wissenschaftliche Selbstbiographie. W. Berg (Ed.). Halle, Germany: Deutsche Akademie der Naturforscher Leopoldina.

 ■ Plato (1892). Meno. In The Dialogues of Plato (B. Jowett, Trans.; Vol. 2). New York: Clarendon. (Originally published circa 380 B.C.)

 ■ Poincareґ, H. (1913). Mathematical creation. In The foundations of science. G. B. Halsted (Trans.). New York: Science Press.

 ■ Poincareґ, H. (1921). The foundations of science: Science and hypothesis, the value of science, science and method. G. B. Halstead (Trans.). New York: Science Press.

 ■ Poincareґ, H. (1929). The foundations of science: Science and hypothesis, the value of science, science and method. New York: Science Press.

 ■ Poincareґ, H. (1952). Science and method. F. Maitland (Trans.) New York: Dover.

 ■ Polya, G. (1945). How to solve it. Princeton, NJ: Princeton University Press.

 ■ Polanyi, M. (1958). Personal knowledge. London: Routledge & Kegan Paul.

 ■ Popper, K. (1968). Conjectures and refutations: The growth of scientific knowledge. New York: Harper & Row/Basic Books.

 ■ Popper, K., & J. Eccles (1977). The self and its brain. New York: Springer-Verlag.

 ■ Popper, K. R. (1959). The logic of scientific discovery. London: Hutchinson.

 ■ Putnam, H. (1975). Mind, language and reality: Philosophical papers (Vol. 2). Cambridge: Cambridge University Press.

 ■ Putnam, H. (1987). The faces of realism. LaSalle, IL: Open Court.

 ■ Pylyshyn, Z. W. (1981). The imagery debate: Analog media versus tacit knowledge. In N. Block (Ed.), Imagery (pp. 151-206). Cambridge, MA: MIT Press.

 ■ Pylyshyn, Z. W. (1984). Computation and cognition: Towards a foundation for cog nitive science. Cambridge, MA: MIT Press/Bradford Books.

 ■ Quillian, M. R. (1968). Semantic memory. In M. Minsky (Ed.), Semantic information processing (pp. 216-260). Cambridge, MA: MIT Press.

 ■ Quine, W.V.O. (1960). Word and object. Cambridge, MA: Harvard University Press.

 ■ Rabbitt, P.M.A., & S. Dornic (Eds.). Attention and performance (Vol. 5). London: Academic Press.

 ■ Rawlins, G.J.E. (1997). Slaves of the Machine: The quickening of computer technology. Cambridge, MA: MIT Press/Bradford Books.

 ■ Reid, T. (1970). An inquiry into the human mind on the principles of common sense. In R. Brown (Ed.), Between Hume and Mill: An anthology of British philosophy- 1749- 1843 (pp. 151-178). New York: Random House/Modern Library.

 ■ Reitman, W. (1970). What does it take to remember? In D. A. Norman (Ed.), Models of human memory (pp. 470-510). London: Academic Press.

 ■ Ricoeur, P. (1974). Structure and hermeneutics. In D. I. Ihde (Ed.), The conflict of interpretations: Essays in hermeneutics (pp. 27-61). Evanston, IL: Northwestern University Press.

 ■ Robinson, D. N. (1986). An intellectual history of psychology. Madison: University of Wisconsin Press.

 ■ Rorty, R. (1979). Philosophy and the mirror of nature. Princeton, NJ: Princeton University Press.

 ■ Rosch, E. (1977). Human categorization. In N. Warren (Ed.), Studies in cross cultural psychology (Vol. 1, pp. 1-49) London: Academic Press.

 ■ Rosch, E. (1978). Principles of categorization. In E. Rosch & B. B. Lloyd (Eds.), Cognition and categorization (pp. 27-48). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rosch, E., & B. B. Lloyd (1978). Principles of categorization. In E. Rosch & B. B. Lloyd (Eds.), Cognition and categorization. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rose, S. (1970). The chemistry of life. Baltimore: Penguin Books.

 ■ Rose, S. (1976). The conscious brain (updated ed.). New York: Random House.

 ■ Rose, S. (1993). The making of memory: From molecules to mind. New York: Anchor Books. (Originally published in 1992)

 ■ Roszak, T. (1994). The cult of information: A neo- Luddite treatise on high- tech, artificial intelligence, and the true art of thinking (2nd ed.). Berkeley: University of California Press.

 ■ Royce, J. R., & W. W. Rozeboom (Eds.) (1972). The psychology of knowing. New York: Gordon & Breach.

 ■ Rumelhart, D. E. (1977). Introduction to human information processing. New York: Wiley.

 ■ Rumelhart, D. E. (1980). Schemata: The building blocks of cognition. In R. J. Spiro, B. Bruce & W. F. Brewer (Eds.), Theoretical issues in reading comprehension. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rumelhart, D. E., & J. L. McClelland (1986). On learning the past tenses of English verbs. In J. L. McClelland & D. E. Rumelhart (Eds.), Parallel distributed processing: Explorations in the microstructure of cognition (Vol. 2). Cambridge, MA: MIT Press.

 ■ Rumelhart, D. E., P. Smolensky, J. L. McClelland & G. E. Hinton (1986). Schemata and sequential thought processes in PDP models. In J. L. McClelland, D. E. Rumelhart & the PDP Research Group (Eds.), Parallel Distributed Processing (Vol. 2, pp. 7-57). Cambridge, MA: MIT Press.

 ■ Russell, B. (1927). An outline of philosophy. London: G. Allen & Unwin.

 ■ Russell, B. (1961). History of Western philosophy. London: George Allen & Unwin.

 ■ Russell, B. (1965). How I write. In Portraits from memory and other essays. London: Allen & Unwin.

 ■ Russell, B. (1992). In N. Griffin (Ed.), The selected letters of Bertrand Russell (Vol. 1), The private years, 1884- 1914. Boston: Houghton Mifflin. Ryecroft, C. (1966). Psychoanalysis observed. London: Constable.

 ■ Sagan, C. (1978). The dragons of Eden: Speculations on the evolution of human intel ligence. New York: Ballantine Books.

 ■ Salthouse, T. A. (1992). Expertise as the circumvention of human processing limitations. In K. A. Ericsson & J. Smith (Eds.), Toward a general theory of expertise: Prospects and limits (pp. 172-194). Cambridge: Cambridge University Press.

 ■ Sanford, A. J. (1987). The mind of man: Models of human understanding. New Haven, CT: Yale University Press.

 ■ Sapir, E. (1921). Language. New York: Harcourt, Brace, and World.

 ■ Sapir, E. (1964). Culture, language, and personality. Berkeley: University of California Press. (Originally published in 1941.)

 ■ Sapir, E. (1985). The status of linguistics as a science. In D. G. Mandelbaum (Ed.), Selected writings of Edward Sapir in language, culture and personality (pp. 160166). Berkeley: University of California Press. (Originally published in 1929).

 ■ Scardmalia, M., & C. Bereiter (1992). Literate expertise. In K. A. Ericsson & J. Smith (Eds.), Toward a general theory of expertise: Prospects and limits (pp. 172-194). Cambridge: Cambridge University Press.

 ■ Schafer, R. (1954). Psychoanalytic interpretation in Rorschach testing. New York: Grune & Stratten.

 ■ Schank, R. C. (1973). Identification of conceptualizations underlying natural language. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language (pp. 187-248). San Francisco: W. H. Freeman.

 ■ Schank, R. C. (1976). The role of memory in language processing. In C. N. Cofer (Ed.), The structure of human memory. (pp. 162-189) San Francisco: W. H. Freeman.

 ■ Schank, R. C. (1986). Explanation patterns: Understanding mechanically and creatively. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Schank, R. C., & R. P. Abelson (1977). Scripts, plans, goals, and understanding. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ SchroЁdinger, E. (1951). Science and humanism. Cambridge: Cambridge University Press.

 ■ Searle, J. R. (1981a). Minds, brains, and programs. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 282-306). Cambridge, MA: MIT Press.

 ■ Searle, J. R. (1981b). Minds, brains and programs. In D. Hofstadter & D. Dennett (Eds.), The mind's I (pp. 353-373). New York: Basic Books.

 ■ Searle, J. R. (1983). Intentionality. New York: Cambridge University Press.

 ■ Serres, M. (1982). The origin of language: Biology, information theory, and thermodynamics. M. Anderson (Trans.). In J. V. Harari & D. F. Bell (Eds.), Hermes: Literature, science, philosophy (pp. 71-83). Baltimore: Johns Hopkins University Press.

 ■ Simon, H. A. (1966). Scientific discovery and the psychology of problem solving. In R. G. Colodny (Ed.), Mind and cosmos: Essays in contemporary science and philosophy (pp. 22-40). Pittsburgh: University of Pittsburgh Press.

 ■ Simon, H. A. (1979). Models of thought. New Haven, CT: Yale University Press.

 ■ Simon, H. A. (1989). The scientist as a problem solver. In D. Klahr & K. Kotovsky (Eds.), Complex information processing: The impact of Herbert Simon. Hillsdale, N.J.: Lawrence Erlbaum Associates.

 ■ Simon, H. A., & C. Kaplan (1989). Foundations of cognitive science. In M. Posner (Ed.), Foundations of cognitive science (pp. 1-47). Cambridge, MA: MIT Press.

 ■ Simonton, D. K. (1988). Creativity, leadership and chance. In R. J. Sternberg (Ed.), The nature of creativity. Cambridge: Cambridge University Press.

 ■ Skinner, B. F. (1974). About behaviorism. New York: Knopf.

 ■ Smith, E. E. (1988). Concepts and thought. In J. Sternberg & E. E. Smith (Eds.), The psychology of human thought (pp. 19-49). Cambridge: Cambridge University Press.

 ■ Smith, E. E. (1990). Thinking: Introduction. In D. N. Osherson & E. E. Smith (Eds.), Thinking. An invitation to cognitive science. (Vol. 3, pp. 1-2). Cambridge, MA: MIT Press.

 ■ Socrates. (1958). Meno. In E. H. Warmington & P. O. Rouse (Eds.), Great dialogues of Plato W.H.D. Rouse (Trans.). New York: New American Library. (Original publication date unknown.)

 ■ Solso, R. L. (1974). Theories of retrieval. In R. L. Solso (Ed.), Theories in cognitive psychology. Potomac, MD: Lawrence Erlbaum Associates.

 ■ Spencer, H. (1896). The principles of psychology. New York: Appleton-CenturyCrofts.

 ■ Steiner, G. (1975). After Babel: Aspects of language and translation. New York: Oxford University Press.

 ■ Sternberg, R. J. (1977). Intelligence, information processing, and analogical reasoning. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Sternberg, R. J. (1994). Intelligence. In R. J. Sternberg, Thinking and problem solving. San Diego: Academic Press.

 ■ Sternberg, R. J., & J. E. Davidson (1985). Cognitive development in gifted and talented. In F. D. Horowitz & M. O'Brien (Eds.), The gifted and talented (pp. 103-135). Washington, DC: American Psychological Association.

 ■ Storr, A. (1993). The dynamics of creation. New York: Ballantine Books. (Originally published in 1972.)

 ■ Stumpf, S. E. (1994). Philosophy: History and problems (5th ed.). New York: McGraw-Hill.

 ■ Sulloway, F. J. (1996). Born to rebel: Birth order, family dynamics, and creative lives. New York: Random House/Vintage Books.

 ■ Thorndike, E. L. (1906). Principles of teaching. New York: A. G. Seiler.

 ■ Thorndike, E. L. (1970). Animal intelligence: Experimental studies. Darien, CT: Hafner Publishing Co. (Originally published in 1911.)

 ■ Titchener, E. B. (1910). A textbook of psychology. New York: Macmillan.

 ■ Titchener, E. B. (1914). A primer of psychology. New York: Macmillan.

 ■ Toulmin, S. (1957). The philosophy of science. London: Hutchinson.

 ■ Tulving, E. (1972). Episodic and semantic memory. In E. Tulving & W. Donaldson (Eds.), Organisation of memory. London: Academic Press.

 ■ Turing, A. (1946). In B. E. Carpenter & R. W. Doran (Eds.), ACE reports of 1946 and other papers. Cambridge, MA: MIT Press.

 ■ Turkle, S. (1984). Computers and the second self: Computers and the human spirit. New York: Simon & Schuster.

 ■ Tyler, S. A. (1978). The said and the unsaid: Mind, meaning, and culture. New York: Academic Press.

 ■ van Heijenoort (Ed.) (1967). From Frege to Goedel. Cambridge: Harvard University Press.

 ■ Varela, F. J. (1984). The creative circle: Sketches on the natural history of circularity. In P. Watzlawick (Ed.), The invented reality (pp. 309-324). New York: W. W. Norton.

 ■ Voltaire (1961). On the Penseґs of M. Pascal. In Philosophical letters (pp. 119-146). E. Dilworth (Trans.). Indianapolis: Bobbs-Merrill.

 ■ Wagman, M. (1991a). Artificial intelligence and human cognition: A theoretical inter comparison of two realms of intellect. Westport, CT: Praeger.

 ■ Wagman, M. (1991b). Cognitive science and concepts of mind: Toward a general theory of human and artificial intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1993). Cognitive psychology and artificial intelligence: Theory and re search in cognitive science. Westport, CT: Praeger.

 ■ Wagman, M. (1995). The sciences of cognition: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1996). Human intellect and cognitive science: Toward a general unified theory of intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1997a). Cognitive science and the symbolic operations of human and artificial intelligence: Theory and research into the intellective processes. Westport, CT: Praeger.

 ■ Wagman, M. (1997b). The general unified theory of intelligence: Central conceptions and specific application to domains of cognitive science. Westport, CT: Praeger.

 ■ Wagman, M. (1998a). Cognitive science and the mind- body problem: From philosophy to psychology to artificial intelligence to imaging of the brain. Westport, CT: Praeger.

 ■ Wagman, M. (1998b). Language and thought in humans and computers: Theory and research in psychology, artificial intelligence, and neural science. Westport, CT: Praeger.

 ■ Wagman, M. (1998c). The ultimate objectives of artificial intelligence: Theoretical and research foundations, philosophical and psychological implications. Westport, CT: Praeger.

 ■ Wagman, M. (1999). The human mind according to artificial intelligence: Theory, re search, and implications. Westport, CT: Praeger.

 ■ Wagman, M. (2000). Scientific discovery processes in humans and computers: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.

 ■ Wall, R. (1972). Introduction to mathematical linguistics. Englewood Cliffs, NJ: Prentice-Hall.

 ■ Wallas, G. (1926). The Art of Thought. New York: Harcourt, Brace & Co.

 ■ Wason, P. (1977). Self contradictions. In P. Johnson-Laird & P. Wason (Eds.), Thinking: Readings in cognitive science. Cambridge: Cambridge University Press.

 ■ Wason, P. C., & P. N. Johnson-Laird. (1972). Psychology of reasoning: Structure and content. Cambridge, MA: Harvard University Press.

 ■ Watson, J. (1930). Behaviorism. New York: W. W. Norton.

 ■ Watzlawick, P. (1984). Epilogue. In P. Watzlawick (Ed.), The invented reality. New York: W. W. Norton, 1984.

 ■ Weinberg, S. (1977). The first three minutes: A modern view of the origin of the uni verse. New York: Basic Books.

 ■ Weisberg, R. W. (1986). Creativity: Genius and other myths. New York: W. H. Freeman.

 ■ Weizenbaum, J. (1976). Computer power and human reason: From judgment to cal culation. San Francisco: W. H. Freeman.

 ■ Wertheimer, M. (1945). Productive thinking. New York: Harper & Bros.

 ■ Whitehead, A. N. (1925). Science and the modern world. New York: Macmillan.

 ■ Whorf, B. L. (1956). In J. B. Carroll (Ed.), Language, thought and reality: Selected writings of Benjamin Lee Whorf. Cambridge, MA: MIT Press.

 ■ Whyte, L. L. (1962). The unconscious before Freud. New York: Anchor Books.

 ■ Wiener, N. (1954). The human use of human beings. Boston: Houghton Mifflin.

 ■ Wiener, N. (1964). God & Golem, Inc.: A comment on certain points where cybernetics impinges on religion. Cambridge, MA: MIT Press.

 ■ Winograd, T. (1972). Understanding natural language. New York: Academic Press.

 ■ Winston, P. H. (1987). Artificial intelligence: A perspective. In E. L. Grimson & R. S. Patil (Eds.), AI in the 1980s and beyond (pp. 1-12). Cambridge, MA: MIT Press.

 ■ Winston, P. H. (Ed.) (1975). The psychology of computer vision. New York: McGrawHill.

 ■ Wittgenstein, L. (1953). Philosophical investigations. Oxford: Basil Blackwell.

 ■ Wittgenstein, L. (1958). The blue and brown books. New York: Harper Colophon.

 ■ Woods, W. A. (1975). What's in a link: Foundations for semantic networks. In D. G. Bobrow & A. Collins (Eds.), Representations and understanding: Studies in cognitive science (pp. 35-84). New York: Academic Press.

 ■ Woodworth, R. S. (1938). Experimental psychology. New York: Holt; London: Methuen (1939).

 ■ Wundt, W. (1904). Principles of physiological psychology (Vol. 1). E. B. Titchener (Trans.). New York: Macmillan.

 ■ Wundt, W. (1907). Lectures on human and animal psychology. J. E. Creighton & E. B. Titchener (Trans.). New York: Macmillan.

 ■ Young, J. Z. (1978). Programs of the brain. New York: Oxford University Press.

 ■ Ziman, J. (1978). Reliable knowledge: An exploration of the grounds for belief in science. Cambridge: Cambridge University Press.

happy

•• happy, more than happy

•• Happy 1. fortunate; lucky; feeling or expressing pleasure, contentment, satisfaction, etc. 2. (in polite formulas) pleased (A.S. Hornby).
•• Английское слово happy – не совсем то же самое, что русское счастливый. Скорее оно означает довольный. Are you happy here? – Тебе здесь нравится? Отсюда и чрезмерное, на первый взгляд, more than happy: I’ll be more than happy to help you означает просто-напросто я буду рад (я всегда готов) помочь вам.
•• * В интересном интервью Ады Баскиной в «Новой газете» (http://2004.novayagazeta.ru/nomer/2004/41n/n41n-s23.shtml) много верного, но есть, на мой взгляд, и неточности. Вот, например, такой пассаж:
•• Американцы в лучшую сторону отличаются от русских своим позитивным отношением к жизни. Оптимизмом. Известно, что на вопрос, как дела, американец автоматически отвечает: отлично! замечательно! великолепно!.. А когда я говорю своей соседке: «Леночка, вы прекрасно выглядите...» – она начинает: «Ой, да что вы! Я всю ночь стирала. У меня мешки под глазами, голова раскалывается, растрепанная вся...». Все у Леночки в жизни более-менее нормально, но она, как всякий русский, акцентируется исключительно на плохом. А американец...
•• Помню, поинтересовалась однажды у своей коллеги-социолога Шэрон, как живут американцы. Она отвечает: «Большинство американцев очень счастливы». Я на нее вылупилась: какой же надо быть идиоткой, чтобы такую фразу произнести! Тем более социологу! Да в какой такой общности людей большинство счастливо?! А где же смерть близких, супружеская неверность, бомжи и безработные, болезни?.. Тысячи людей в Америке не имеют медицинской помощи, потому что у них нет денег на оплату страховки... Что за бред она несет?
•• А у самой этой женщины вид довольно счастливый, и я подумала: вот что личное удовлетворение делает с человеком – превращает его в идиота! Попросила Шэрон рассказать о себе. И Шэрон рассказала... У нее был муж, с которым она прожила несколько лет в постоянных скандалах, – он ее бил, затерроризировал детей до нервных припадков... После развода отобрал у Шэрон с детьми дом. «Но теперь мы развелись, и я совершенно счастлива! – говорит она. – А детей психолог вылечил, и они теперь тоже совершенно счастливы. Правда, сына моего недавно ограбили и избили, он лежит в больнице вторую неделю. Но ему уже лучше, ему сильно повезло – все срослось нормально, и он счастлив».
•• «А дочь?» – спрашиваю я, уже боясь продолжения. «А у дочери был жених Пол. Они два года встречались и были совершенно счастливы. Но мы католики, а родители Пола протестанты, и они были против их брака. Поэтому молодые расстались. Пол вскоре женился. Дочь долго переживала...». Я сижу молчу – ни жива ни мертва. Боюсь уже задавать вопросы: налицо семейная драма – два года встречались, расстались, слезы, девушка переживает... А Шэрон продолжает: «Но это было давно, полгода назад. С тех пор она познакомилась с другим парнем и очень счастлива».
•• И тут я поняла: это не диагноз, это установка. Установка на то, что все вокруг хорошо, за исключением того, что скоро будет еще лучше. Некоторая доля неадекватности в таком восприятии жизни есть, конечно. Но по большому счету подобное отношение к жизни мне нравится больше, чем наше постоянное нытье и жалобы на жизнь.
•• Все это рассуждение построено на неправильном понимании слова happy. В «Моем несистематическом словаре» о различии английского (американского прежде всего) happy и русского представления о счастье сказано очень кратко: «Скорее оно [happy] означает довольный». Хотел бы добавить, что русское представление о счастье интуитивно формулируется с большим завышением, ну просто поэма экстаза какая-то. Из-за таких завышенных требований – сдержанная, мягко говоря, оценка жизни (см. статью нормально «Моего несистематического словаря»).
•• Конечно, у разных американцев разное представление о happiness, но в целом оно, пожалуй, «на полтона ниже», чем у нас. И самое главное – «градус счастья», по-видимому, разный у существительного (все-таки ближе к нашему) и прилагательного, которое употребляется рутинно.
•• Вот пример из только что полученного официального письма:
•• I would, of course, be happy to meet with <...> when an agreement is finalized.
•• В переводе единственно правильный вариант – рутинное Я буду рад встретиться (интересно, что по-русски сослагательное наклонение, вроде бы соответствующее английскому would, не требуется, более того – нарушало бы узус и даже, по-моему, грамматическую норму).
•• Похожие различия рассматриваются в работах выдающейся польской лингвистки Анны Вежбицкой (Anna Wierzbicka). Например, в книге Semantics, Culture, and Cognition: Universal Human Concepts in Culture-Specific Configurations разбираются такие «непереводимые» русские слова, как душа, судьба, жалость, тоска, пошлость и т.д. Интересен диахронический разбор cлова friend – эволюция значения данного слова в английском языке от «вертикального» (глубокая, эмоциональная дружба) к нынешнему «горизонтальному» (поверхностная дружба, знакомство, просто нахождение рядом – Your friend here). Со словом friendship этого не произошло, как не произошло в русском языке и со словом друг (или если и произошло, то в гораздо меньшей степени). Насколько я знаю, слово happy (с его «эквивалентами» в других языках) в ее работах не рассматривается.

more than happy

•• happy, more than happy

•• Happy 1. fortunate; lucky; feeling or expressing pleasure, contentment, satisfaction, etc. 2. (in polite formulas) pleased (A.S. Hornby).
•• Английское слово happy – не совсем то же самое, что русское счастливый. Скорее оно означает довольный. Are you happy here? – Тебе здесь нравится? Отсюда и чрезмерное, на первый взгляд, more than happy: I’ll be more than happy to help you означает просто-напросто я буду рад (я всегда готов) помочь вам.
•• * В интересном интервью Ады Баскиной в «Новой газете» (http://2004.novayagazeta.ru/nomer/2004/41n/n41n-s23.shtml) много верного, но есть, на мой взгляд, и неточности. Вот, например, такой пассаж:
•• Американцы в лучшую сторону отличаются от русских своим позитивным отношением к жизни. Оптимизмом. Известно, что на вопрос, как дела, американец автоматически отвечает: отлично! замечательно! великолепно!.. А когда я говорю своей соседке: «Леночка, вы прекрасно выглядите...» – она начинает: «Ой, да что вы! Я всю ночь стирала. У меня мешки под глазами, голова раскалывается, растрепанная вся...». Все у Леночки в жизни более-менее нормально, но она, как всякий русский, акцентируется исключительно на плохом. А американец...
•• Помню, поинтересовалась однажды у своей коллеги-социолога Шэрон, как живут американцы. Она отвечает: «Большинство американцев очень счастливы». Я на нее вылупилась: какой же надо быть идиоткой, чтобы такую фразу произнести! Тем более социологу! Да в какой такой общности людей большинство счастливо?! А где же смерть близких, супружеская неверность, бомжи и безработные, болезни?.. Тысячи людей в Америке не имеют медицинской помощи, потому что у них нет денег на оплату страховки... Что за бред она несет?
•• А у самой этой женщины вид довольно счастливый, и я подумала: вот что личное удовлетворение делает с человеком – превращает его в идиота! Попросила Шэрон рассказать о себе. И Шэрон рассказала... У нее был муж, с которым она прожила несколько лет в постоянных скандалах, – он ее бил, затерроризировал детей до нервных припадков... После развода отобрал у Шэрон с детьми дом. «Но теперь мы развелись, и я совершенно счастлива! – говорит она. – А детей психолог вылечил, и они теперь тоже совершенно счастливы. Правда, сына моего недавно ограбили и избили, он лежит в больнице вторую неделю. Но ему уже лучше, ему сильно повезло – все срослось нормально, и он счастлив».
•• «А дочь?» – спрашиваю я, уже боясь продолжения. «А у дочери был жених Пол. Они два года встречались и были совершенно счастливы. Но мы католики, а родители Пола протестанты, и они были против их брака. Поэтому молодые расстались. Пол вскоре женился. Дочь долго переживала...». Я сижу молчу – ни жива ни мертва. Боюсь уже задавать вопросы: налицо семейная драма – два года встречались, расстались, слезы, девушка переживает... А Шэрон продолжает: «Но это было давно, полгода назад. С тех пор она познакомилась с другим парнем и очень счастлива».
•• И тут я поняла: это не диагноз, это установка. Установка на то, что все вокруг хорошо, за исключением того, что скоро будет еще лучше. Некоторая доля неадекватности в таком восприятии жизни есть, конечно. Но по большому счету подобное отношение к жизни мне нравится больше, чем наше постоянное нытье и жалобы на жизнь.
•• Все это рассуждение построено на неправильном понимании слова happy. В «Моем несистематическом словаре» о различии английского (американского прежде всего) happy и русского представления о счастье сказано очень кратко: «Скорее оно [happy] означает довольный». Хотел бы добавить, что русское представление о счастье интуитивно формулируется с большим завышением, ну просто поэма экстаза какая-то. Из-за таких завышенных требований – сдержанная, мягко говоря, оценка жизни (см. статью нормально «Моего несистематического словаря»).
•• Конечно, у разных американцев разное представление о happiness, но в целом оно, пожалуй, «на полтона ниже», чем у нас. И самое главное – «градус счастья», по-видимому, разный у существительного (все-таки ближе к нашему) и прилагательного, которое употребляется рутинно.
•• Вот пример из только что полученного официального письма:
•• I would, of course, be happy to meet with <...> when an agreement is finalized.
•• В переводе единственно правильный вариант – рутинное Я буду рад встретиться (интересно, что по-русски сослагательное наклонение, вроде бы соответствующее английскому would, не требуется, более того – нарушало бы узус и даже, по-моему, грамматическую норму).
•• Похожие различия рассматриваются в работах выдающейся польской лингвистки Анны Вежбицкой (Anna Wierzbicka). Например, в книге Semantics, Culture, and Cognition: Universal Human Concepts in Culture-Specific Configurations разбираются такие «непереводимые» русские слова, как душа, судьба, жалость, тоска, пошлость и т.д. Интересен диахронический разбор cлова friend – эволюция значения данного слова в английском языке от «вертикального» (глубокая, эмоциональная дружба) к нынешнему «горизонтальному» (поверхностная дружба, знакомство, просто нахождение рядом – Your friend here). Со словом friendship этого не произошло, как не произошло в русском языке и со словом друг (или если и произошло, то в гораздо меньшей степени). Насколько я знаю, слово happy (с его «эквивалентами» в других языках) в ее работах не рассматривается.

Cognitive Science

   1) The Basic Idea of Cognitive Science

   The basic idea of cognitive science is that intelligent beings are semantic engines-in other words, automatic formal systems with interpretations under which they consistently make sense.... [P]eople and intelligent computers turn out to be merely different manifestations of the same underlying phenomenon. (Haugeland, 1981b, p. 31)

   2) Experimental Psychology, Theoretical Linguistics, and Computational Simulation of Cognitive Processes Are All Components of Cognitive Science

   I went away from the Symposium with a strong conviction, more intuitive than rational, that human experimental psychology, theoretical linguistics, and computer simulation of cognitive processes were all pieces of a larger whole, and that the future would see progressive elaboration and coordination of their shared concerns.... I have been working toward a cognitive science for about twenty years beginning before I knew what to call it. (G. A. Miller, 1979, p. 9)

   3) The Nature of Cognitive Science

    Cognitive Science studies the nature of cognition in human beings, other animals, and inanimate machines (if such a thing is possible). While computers are helpful within cognitive science, they are not essential to its being. A science of cognition could still be pursued even without these machines.

    Computer Science studies various kinds of problems and the use of computers to solve them, without concern for the means by which we humans might otherwise resolve them. There could be no computer science if there were no machines of this kind, because they are indispensable to its being. Artificial Intelligence is a special branch of computer science that investigates the extent to which the mental powers of human beings can be captured by means of machines.

   There could be cognitive science without artificial intelligence but there could be no artificial intelligence without cognitive science. One final caveat: In the case of an emerging new discipline such as cognitive science there is an almost irresistible temptation to identify the discipline itself (as a field of inquiry) with one of the theories that inspired it (such as the computational conception...). This, however, is a mistake. The field of inquiry (or "domain") stands to specific theories as questions stand to possible answers. The computational conception should properly be viewed as a research program in cognitive science, where "research programs" are answers that continue to attract followers. (Fetzer, 1996, pp. xvi-xvii)

   4) The Nature of Cognitive Science

   What is the nature of knowledge and how is this knowledge used? These questions lie at the core of both psychology and artificial intelligence.

   The psychologist who studies "knowledge systems" wants to know how concepts are structured in the human mind, how such concepts develop, and how they are used in understanding and behavior. The artificial intelligence researcher wants to know how to program a computer so that it can understand and interact with the outside world. The two orientations intersect when the psychologist and the computer scientist agree that the best way to approach the problem of building an intelligent machine is to emulate the human conceptual mechanisms that deal with language.... The name "cognitive science" has been used to refer to this convergence of interests in psychology and artificial intelligence....

   This working partnership in "cognitive science" does not mean that psychologists and computer scientists are developing a single comprehensive theory in which people are no different from machines. Psychology and artificial intelligence have many points of difference in methods and goals.... We simply want to work on an important area of overlapping interest, namely a theory of knowledge systems. As it turns out, this overlap is substantial. For both people and machines, each in their own way, there is a serious problem in common of making sense out of what they hear, see, or are told about the world. The conceptual apparatus necessary to perform even a partial feat of understanding is formidable and fascinating. (Schank & Abelson, 1977, pp. 1-2)

   5) The New Field of Cognitive Science

   Within the last dozen years a general change in scientific outlook has occurred, consonant with the point of view represented here. One can date the change roughly from 1956: in psychology, by the appearance of Bruner, Goodnow, and Austin's Study of Thinking and George Miller's "The Magical Number Seven"; in linguistics, by Noam Chomsky's "Three Models of Language"; and in computer science, by our own paper on the Logic Theory Machine. (Newell & Simon, 1972, p. 4)

Cognitive Psychology

   1) Cognitive Processes Truly Exist

   The basic reason for studying cognitive processes has become as clear as the reason for studying anything else: because they are there. Our knowledge of the world must be somehow developed from stimulus input.... Cognitive processes surely exist, so it can hardly be unscientific to study them. (Neisser, 1967, p. 5).

   2) Cognitive Psychologists Construe the Abstract Mechanisms Underlying Behavior

   The task of the cognitive psychologist is a highly inferential one. The cognitive psychologist must proceed from observations of the behavior of humans performing intellectual tasks to conclusions about the abstract mechanisms underlying the behavior. Developing a theory in cognitive psychology is much like developing a model for the working of the engine of a strange new vehicle by driving the vehicle, being unable to open it up to inspect the engine itself....

   It is well understood from the automata theory... that many different mechanisms can generate the same external behavior. (Anderson, 1980, pp. 12, 17)

   3) Cognitive Psychology Does Not Deal with Whole People

   [Cognitive psychology does not] deal with whole people but with a very special and bizarre-almost Frankensteinian-preparation, which consists of a brain attached to two eyes, two ears, and two index fingers. This preparation is only to be found inside small, gloomy cubicles, outside which red lights burn to warn ordinary people away.... It does not feel hungry or tired or inquisitive; it does not think extraneous thoughts or try to understand what is going on. It is, in short, a computer, made in the image of the larger electronic organism that sends it stimuli and records its responses. (Claxton, 1980, p. 13)

   4) Cognitive Psychology Has Not Succeeded in Making a Significant Contribution to the Understanding of the Human Mind

   Cognitive psychology is not getting anywhere; that in spite of our sophisticated methodology, we have not succeeded in making a substantial contribution toward the understanding of the human mind.... A short time ago, the information processing approach to cognition was just beginning. Hopes were high that the analysis of information processing into a series of discrete stages would offer profound insights into human cognition. But in only a few short years the vigor of this approach was spent. It was only natural that hopes that had been so high should sink low. (Glass, Holyoak & Santa, 1979, p. ix)

   5) Cognitive Psychology Seeks to Understand Human Intelligence and Thinking

   Cognitive psychology attempts to understand the nature of human intelligence and how people think. (Anderson, 1980, p. 3)

   6) The Rise of Cognitive Psychology Demonstrates That the Impeccable Peripheralism of Stimulus- Response Theories Could Not Last

   The past few years have witnessed a noticeable increase in interest in an investigation of the cognitive processes.... It has resulted from a recognition of the complex processes that mediate between the classical "stimuli" and "responses" out of which stimulus-response learning theories hoped to fashion a psychology that would by-pass anything smacking of the "mental." The impeccable peripheralism of such theories could not last. One might do well to have a closer look at these intervening "cognitive maps." (Bruner, Goodnow & Austin, 1956, p. vii)

Simulation

   Computer Simulation of Reality Should Not Be Confused with a Duplication of Reality

   No one supposes that computer simulation of a five-alarm fire will burn the neighborhood down or that computer simulation of a rainstorm will leave us all drenched. Why on earth would anyone suppose that a computer simulation of understanding actually understood anything? It is sometimes said that it would be frightfully hard to get computers to feel pain or fall in love, but love and pain are neither harder nor easier than cognition or anything else. For simulation, all you need is the right input and output and a program in the middle that transforms the former into the latter. That is all the computer has for anything it does. To confuse simulation with duplication is the same mistake, whether it is pain, love, cognition, fires or rainstorms. (Searle, 1981a, p. 302)

познание

ср.
1) филос. perception;
cognition древо познания добра и зла ≈ the tree of knowledge of good and evil теория познания ≈ theory of knowledge;
epistemology
2) мн. познания experience, knowledge, learning, scholarship

познани|е - с.
1. knowledge;
филос. cognition;
теория ~я theory of knowledge;

2. мн. (совокупность знаний) knowledge sg.

Computers

   1) A Comparison of the Digital Computer and the Brain

   The brain has been compared to a digital computer because the neuron, like a switch or valve, either does or does not complete a circuit. But at that point the similarity ends. The switch in the digital computer is constant in its effect, and its effect is large in proportion to the total output of the machine. The effect produced by the neuron varies with its recovery from [the] refractory phase and with its metabolic state. The number of neurons involved in any action runs into millions so that the influence of any one is negligible.... Any cell in the system can be dispensed with.... The brain is an analogical machine, not digital. Analysis of the integrative activities will probably have to be in statistical terms. (Lashley, quoted in Beach, Hebb, Morgan & Nissen, 1960, p. 539)

   2) Computers Do Not Crunch Numbers, They Manipulate Symbols

   It is essential to realize that a computer is not a mere "number cruncher," or supercalculating arithmetic machine, although this is how computers are commonly regarded by people having no familiarity with artificial intelligence. Computers do not crunch numbers; they manipulate symbols.... Digital computers originally developed with mathematical problems in mind, are in fact general purpose symbol manipulating machines....

   The terms "computer" and "computation" are themselves unfortunate, in view of their misleading arithmetical connotations. The definition of artificial intelligence previously cited-"the study of intelligence as computation"-does not imply that intelligence is really counting. Intelligence may be defined as the ability creatively to manipulate symbols, or process information, given the requirements of the task in hand. (Boden, 1981, pp. 15, 16-17)

   3) Getting Computers to Explain Things to Themselves

   The task is to get computers to explain things to themselves, to ask questions about their experiences so as to cause those explanations to be forthcoming, and to be creative in coming up with explanations that have not been previously available. (Schank, 1986, p. 19)

   4) Some Limits of Artificial Intelligence

   In What Computers Can't Do, written in 1969 (2nd edition, 1972), the main objection to AI was the impossibility of using rules to select only those facts about the real world that were relevant in a given situation. The "Introduction" to the paperback edition of the book, published by Harper & Row in 1979, pointed out further that no one had the slightest idea how to represent the common sense understanding possessed even by a four-year-old. (Dreyfus & Dreyfus, 1986, p. 102)

   5) The Computer as a Humanizing Influence

   A popular myth says that the invention of the computer diminishes our sense of ourselves, because it shows that rational thought is not special to human beings, but can be carried on by a mere machine. It is a short stop from there to the conclusion that intelligence is mechanical, which many people find to be an affront to all that is most precious and singular about their humanness.

   In fact, the computer, early in its career, was not an instrument of the philistines, but a humanizing influence. It helped to revive an idea that had fallen into disrepute: the idea that the mind is real, that it has an inner structure and a complex organization, and can be understood in scientific terms. For some three decades, until the 1940s, American psychology had lain in the grip of the ice age of behaviorism, which was antimental through and through. During these years, extreme behaviorists banished the study of thought from their agenda. Mind and consciousness, thinking, imagining, planning, solving problems, were dismissed as worthless for anything except speculation. Only the external aspects of behavior, the surface manifestations, were grist for the scientist's mill, because only they could be observed and measured....

   It is one of the surprising gifts of the computer in the history of ideas that it played a part in giving back to psychology what it had lost, which was nothing less than the mind itself. In particular, there was a revival of interest in how the mind represents the world internally to itself, by means of knowledge structures such as ideas, symbols, images, and inner narratives, all of which had been consigned to the realm of mysticism. (Campbell, 1989, p. 10)

   6) The Intentionality of Computers Is Essentially Borrowed, Hence Derivative

   [Our artifacts] only have meaning because we give it to them; their intentionality, like that of smoke signals and writing, is essentially borrowed, hence derivative. To put it bluntly: computers themselves don't mean anything by their tokens (any more than books do)-they only mean what we say they do. Genuine understanding, on the other hand, is intentional "in its own right" and not derivatively from something else. (Haugeland, 1981a, pp. 32-33)

   7) The Possibility of Computer Thought

   he debate over the possibility of computer thought will never be won or lost; it will simply cease to be of interest, like the previous debate over man as a clockwork mechanism. (Bolter, 1984, p. 190)

   8) We Are Getting Better at Building Even Better Computers, an Ever- Escalating Upward Spiral

   t takes us a long time to emotionally digest a new idea. The computer is too big a step, and too recently made, for us to quickly recover our balance and gauge its potential. It's an enormous accelerator, perhaps the greatest one since the plow, twelve thousand years ago. As an intelligence amplifier, it speeds up everything-including itself-and it continually improves because its heart is information or, more plainly, ideas. We can no more calculate its consequences than Babbage could have foreseen antibiotics, the Pill, or space stations.

   Further, the effects of those ideas are rapidly compounding, because a computer design is itself just a set of ideas. As we get better at manipulating ideas by building ever better computers, we get better at building even better computers-it's an ever-escalating upward spiral. The early nineteenth century, when the computer's story began, is already so far back that it may as well be the Stone Age. (Rawlins, 1997, p. 19)

   9) Weak Artificial Intelligence and Strong Artificial Intelligence

   According to weak AI, the principle value of the computer in the study of the mind is that it gives us a very powerful tool. For example, it enables us to formulate and test hypotheses in a more rigorous and precise fashion than before. But according to strong AI the computer is not merely a tool in the study of the mind; rather the appropriately programmed computer really is a mind in the sense that computers given the right programs can be literally said to understand and have other cognitive states. And according to strong AI, because the programmed computer has cognitive states, the programs are not mere tools that enable us to test psychological explanations; rather, the programs are themselves the explanations. (Searle, 1981b, p. 353)

    10) Why People Are Smarter Than Computers

   What makes people smarter than machines? They certainly are not quicker or more precise. Yet people are far better at perceiving objects in natural scenes and noting their relations, at understanding language and retrieving contextually appropriate information from memory, at making plans and carrying out contextually appropriate actions, and at a wide range of other natural cognitive tasks. People are also far better at learning to do these things more accurately and fluently through processing experience.

   What is the basis for these differences? One answer, perhaps the classic one we might expect from artificial intelligence, is "software." If we only had the right computer program, the argument goes, we might be able to capture the fluidity and adaptability of human information processing. Certainly this answer is partially correct. There have been great breakthroughs in our understanding of cognition as a result of the development of expressive high-level computer languages and powerful algorithms. However, we do not think that software is the whole story.

   In our view, people are smarter than today's computers because the brain employs a basic computational architecture that is more suited to deal with a central aspect of the natural information processing tasks that people are so good at.... hese tasks generally require the simultaneous consideration of many pieces of information or constraints. Each constraint may be imperfectly specified and ambiguous, yet each can play a potentially decisive role in determining the outcome of processing. (McClelland, Rumelhart & Hinton, 1986, pp. 3-4)

Intelligence

   1) Child Development and the Intellectual Life

   There is no mystery about it: the child who is familiar with books, ideas, conversation-the ways and means of the intellectual life-before he begins school, indeed, before he begins consciously to think, has a marked advantage. He is at home in the House of intellect just as the stableboy is at home among horses, or the child of actors on the stage. (Barzun, 1959, p. 142)

   2) Comparison of Sensory- Motor Intelligence and Conceptual Thought

   It is... no exaggeration to say that sensory-motor intelligence is limited to desiring success or practical adaptation, whereas the function of verbal or conceptual thought is to know and state truth. (Piaget, 1954, p. 359)

   3) The Epistemological and Heuristic Parts of Intelligence

   ntelligence has two parts, which we shall call the epistemological and the heuristic. The epistemological part is the representation of the world in such a form that the solution of problems follows from the facts expressed in the representation. The heuristic part is the mechanism that on the basis of the information solves the problem and decides what to do. (McCarthy & Hayes, 1969, p. 466)

   4) Comparison of Intelligence in Human and Nonhuman Primates

   Many scientists implicitly assume that, among all animals, the behavior and intelligence of nonhuman primates are most like our own. Nonhuman primates have relatively larger brains and proportionally more neocortex than other species... and it now seems likely that humans, chimpanzees, and gorillas shared a common ancestor as recently as 5 to 7 million years ago.... This assumption about the unique status of primate intelligence is, however, just that: an assumption. The relations between intelligence and measures of brain size is poorly understood, and evolutionary affinity does not always ensure behavioral similarity. Moreover, the view that nonhuman primates are the animals most like ourselves coexists uneasily in our minds with the equally pervasive view that primates differ fundamentally from us because they lack language; lacking language, they also lack many of the capacities necessary for reasoning and abstract thought. (Cheney & Seyfarth, 1990, p. 4)

   5) Four Approaches to the Study of Intelligence

   Few constructs are asked to serve as many functions in psychology as is the construct of human intelligence.... Consider four of the main functions addressed in theory and research on intelligence, and how they differ from one another.

   1. Biological. This type of account looks at biological processes. To qualify as a useful biological construct, intelligence should be a biochemical or biophysical process or at least somehow a resultant of biochemical or biophysical processes.

   2. Cognitive approaches. This type of account looks at molar cognitive representations and processes. To qualify as a useful mental construct, intelligence should be specifiable as a set of mental representations and processes that are identifiable through experimental, mathematical, or computational means.

   3. Contextual approaches. To qualify as a useful contextual construct, intelligence should be a source of individual differences in accomplishments in "real-world" performances. It is not enough just to account for performance in the laboratory. On [sic] the contextual view, what a person does in the lab may not even remotely resemble what the person would do outside it. Moreover, different cultures may have different conceptions of intelligence, which affect what would count as intelligent in one cultural context versus another.

   4. Systems approaches. Systems approaches attempt to understand intelligence through the interaction of cognition with context. They attempt to establish a link between the two levels of analysis, and to analyze what forms this link takes. (Sternberg, 1994, pp. 263-264)

   5) High Intelligence Combined with the Greatest Degrees of Persistence

   High but not the highest intelligence, combined with the greatest degrees of persistence, will achieve greater eminence than the highest degree of intelligence with somewhat less persistence. (Cox, 1926, p. 187)

   6) Intelligence Is Not Marked by Definitive Criteria

   There are no definitive criteria of intelligence, just as there are none for chairness; it is a fuzzy-edged concept to which many features are relevant. Two people may both be quite intelligent and yet have very few traits in common-they resemble the prototype along different dimensions.... [Intelligence] is a resemblance between two individuals, one real and the other prototypical. (Neisser, 1979, p. 185)

   7) Synthesis of Differential and Information- Processing Approaches to the Study of Intelligence

   Given the complementary strengths and weaknesses of the differential and information-processing approaches, it should be possible, at least in theory, to synthesise an approach that would capitalise upon the strength of each approach, and thereby share the weakness of neither. (Sternberg, 1977, p. 65)

Mind

   1) To Know the Different Operations of the Mind

   It becomes, therefore, no inconsiderable part of science... to know the different operations of the mind, to separate them from each other, to class them under their proper heads, and to correct all that seeming disorder in which they lie involved when made the object of reflection and inquiry.... It cannot be doubted that the mind is endowed with several powers and faculties, that these powers are distinct from one another, and that what is really distinct to the immediate perception may be distinguished by reflection and, consequently, that there is a truth and falsehood which lie not beyond the compass of human understanding. (Hume, 1955, p. 22)

   2) The Mind Is Furnished by Experience

   Let us then suppose the mind to be, as we say, white Paper, void of all Characters, without any Ideas: How comes it to be furnished? Whence comes it by that vast store, which the busy and boundless Fancy of Man has painted on it, with an almost endless variety? Whence has it all the materials of Reason and Knowledge? To this I answer, in one word, from Experience. (Locke, quoted in Herrnstein & Boring, 1965, p. 584)

   3) Mythical Thought Is as Rigorous as That of Modern Science

   The kind of logic in mythical thought is as rigorous as that of modern science, and... the difference lies, not in the quality of the intellectual process, but in the nature of things to which it is applied.... Man has always been thinking equally well; the improvement lies, not in an alleged progress of man's mind, but in the discovery of new areas to which it may apply its unchanged and unchanging powers. (Leґvi-Strauss, 1963, p. 230)

   4) The Mind Has Nothing But Itself to Know Itself

   MIND. A mysterious form of matter secreted by the brain. Its chief activity consists in the endeavor to ascertain its own nature, the futility of the attempt being due to the fact that it has nothing but itself to know itself with. (Bierce, quoted in Minsky, 1986, p. 55)

   5) To Know Is to Represent Accurately

   [Philosophy] understands the foundations of knowledge and it finds these foundations in a study of man-as-knower, of the "mental processes" or the "activity of representation" which make knowledge possible. To know is to represent accurately what is outside the mind, so to understand the possibility and nature of knowledge is to understand the way in which the mind is able to construct such representation.... We owe the notion of a "theory of knowledge" based on an understanding of "mental processes" to the seventeenth century, and especially to Locke. We owe the notion of "the mind" as a separate entity in which "processes" occur to the same period, and especially to Descartes. We owe the notion of philosophy as a tribunal of pure reason, upholding or denying the claims of the rest of culture, to the eighteenth century and especially to Kant, but this Kantian notion presupposed general assent to Lockean notions of mental processes and Cartesian notions of mental substance. (Rorty, 1979, pp. 3-4)

   6) The Question of Mind in Relation to Machine

   Under pressure from the computer, the question of mind in relation to machine is becoming a central cultural preoccupation. It is becoming for us what sex was to Victorians-threat, obsession, taboo, and fascination. (Turkle, 1984, p. 313)

   7) Understanding the Mind Remains as Resistant to Neurological as to Cognitive Analyses

   Recent years have been exciting for researchers in the brain and cognitive sciences. Both fields have flourished, each spurred on by methodological and conceptual developments, and although understanding the mechanisms of mind is an objective shared by many workers in these areas, their theories and approaches to the problem are vastly different....

   Early experimental psychologists, such as Wundt and James, were as interested in and knowledgeable about the anatomy and physiology of the nervous system as about the young science of the mind. However, the experimental study of mental processes was short-lived, being eclipsed by the rise of behaviorism early in this century. It was not until the late 1950s that the signs of a new mentalism first appeared in scattered writings of linguists, philosophers, computer enthusiasts, and psychologists.

   In this new incarnation, the science of mind had a specific mission: to challenge and replace behaviorism. In the meantime, brain science had in many ways become allied with a behaviorist approach.... While behaviorism sought to reduce the mind to statements about bodily action, brain science seeks to explain the mind in terms of physiochemical events occurring in the nervous system. These approaches contrast with contemporary cognitive science, which tries to understand the mind as it is, without any reduction, a view sometimes described as functionalism.

   The cognitive revolution is now in place. Cognition is the subject of contemporary psychology. This was achieved with little or no talk of neurons, action potentials, and neurotransmitters. Similarly, neuroscience has risen to an esteemed position among the biological sciences without much talk of cognitive processes. Do the fields need each other?... [Y]es because the problem of understanding the mind, unlike the wouldbe problem solvers, respects no disciplinary boundaries. It remains as resistant to neurological as to cognitive analyses. (LeDoux & Hirst, 1986, pp. 1-2)

   8) Approaches to the Study of the Mind

   Since the Second World War scientists from different disciplines have turned to the study of the human mind. Computer scientists have tried to emulate its capacity for visual perception. Linguists have struggled with the puzzle of how children acquire language. Ethologists have sought the innate roots of social behaviour. Neurophysiologists have begun to relate the function of nerve cells to complex perceptual and motor processes. Neurologists and neuropsychologists have used the pattern of competence and incompetence of their brain-damaged patients to elucidate the normal workings of the brain. Anthropologists have examined the conceptual structure of cultural practices to advance hypotheses about the basic principles of the mind. These days one meets engineers who work on speech perception, biologists who investigate the mental representation of spatial relations, and physicists who want to understand consciousness. And, of course, psychologists continue to study perception, memory, thought and action.

... [W]orkers in many disciplines have converged on a number of central problems and explanatory ideas. They have realized that no single approach is likely to unravel the workings of the mind: it will not give up its secrets to psychology alone; nor is any other isolated discipline-artificial intelligence, linguistics, anthropology, neurophysiology, philosophy-going to have any greater success. (Johnson-Laird, 1988, p. 7)

Philosophy

   1) There Are Ideas That Have Their Own True and Immutable Nature

   And what I believe to be more important here is that I find in myself an infinity of ideas of certain things which cannot be assumed to be pure nothingness, even though they may have perhaps no existence outside of my thought. These things are not figments of my imagination, even though it is within my power to think of them or not to think of them; on the contrary, they have their own true and immutable natures. Thus, for example, when I imagine a triangle, even though there may perhaps be no such figure anywhere in the world outside of my thought, nor ever have been, nevertheless the figure cannot help having a certain determinate nature... or essence, which is immutable and eternal, which I have not invented and which does not in any way depend upon my mind. (Descartes, 1951, p. 61)

   2) Examine What Is within Our Reach

   Let us console ourselves for not knowing the possible connections between a spider and the rings of Saturn, and continue to examine what is within our reach. (Voltaire, 1961, p. 144)

   3) Modern Philosophy Starts with the Cartesian Catastrophe

   As modern physics started with the Newtonian revolution, so modern philosophy starts with what one might call the Cartesian Catastrophe. The catastrophe consisted in the splitting up of the world into the realms of matter and mind, and the identification of "mind" with conscious thinking. The result of this identification was the shallow rationalism of l'esprit Cartesien, and an impoverishment of psychology which it took three centuries to remedy even in part. (Koestler, 1964, p. 148)

   4) The Rightful Claims of Philosophy

   It has been made of late a reproach against natural philosophy that it has struck out on a path of its own, and has separated itself more and more widely from the other sciences which are united by common philological and historical studies. The opposition has, in fact, been long apparent, and seems to me to have grown up mainly under the influence of the Hegelian philosophy, or, at any rate, to have been brought out into more distinct relief by that philosophy.... The sole object of Kant's "Critical Philosophy" was to test the sources and the authority of our knowledge, and to fix a definite scope and standard for the researches of philosophy, as compared with other sciences.... [But Hegel's] "Philosophy of Identity" was bolder. It started with the hypothesis that not only spiritual phenomena, but even the actual world-nature, that is, and man-were the result of an act of thought on the part of a creative mind, similar, it was supposed, in kind to the human mind.... The philosophers accused the scientific men of narrowness; the scientific men retorted that the philosophers were crazy. And so it came about that men of science began to lay some stress on the banishment of all philosophic influences from their work; while some of them, including men of the greatest acuteness, went so far as to condemn philosophy altogether, not merely as useless, but as mischievous dreaming. Thus, it must be confessed, not only were the illegitimate pretensions of the Hegelian system to subordinate to itself all other studies rejected, but no regard was paid to the rightful claims of philosophy, that is, the criticism of the sources of cognition, and the definition of the functions of the intellect. (Helmholz, quoted in Dampier, 1966, pp. 291-292)

   5) The Philosophy of Philosophy

   Philosophy remains true to its classical tradition by renouncing it. (Habermas, 1972, p. 317)

   6) Philosophy Is a Field Which Has Certain Central Questions

   I have not attempted... to put forward any grand view of the nature of philosophy; nor do I have any such grand view to put forth if I would. It will be obvious that I do not agree with those who see philosophy as the history of "howlers" and progress in philosophy as the debunking of howlers. It will also be obvious that I do not agree with those who see philosophy as the enterprise of putting forward a priori truths about the world.... I see philosophy as a field which has certain central questions, for example, the relation between thought and reality.... It seems obvious that in dealing with these questions philosophers have formulated rival research programs, that they have put forward general hypotheses, and that philosophers within each major research program have modified their hypotheses by trial and error, even if they sometimes refuse to admit that that is what they are doing. To that extent philosophy is a "science." To argue about whether philosophy is a science in any more serious sense seems to me to be hardly a useful occupation.... It does not seem to me important to decide whether science is philosophy or philosophy is science as long as one has a conception of both that makes both essential to a responsible view of the world and of man's place in it. (Putnam, 1975, p. xvii)

   7) The Central Task of Philosophy

   What can philosophy contribute to solving the problem of the relation [of] mind to body? Twenty years ago, many English-speaking philosophers would have answered: "Nothing beyond an analysis of the various mental concepts." If we seek knowledge of things, they thought, it is to science that we must turn. Philosophy can only cast light upon our concepts of those things.

   This retreat from things to concepts was not undertaken lightly. Ever since the seventeenth century, the great intellectual fact of our culture has been the incredible expansion of knowledge both in the natural and in the rational sciences (mathematics, logic).

   The success of science created a crisis in philosophy. What was there for philosophy to do? Hume had already perceived the problem in some degree, and so surely did Kant, but it was not until the twentieth century, with the Vienna Circle and with Wittgenstein, that the difficulty began to weigh heavily. Wittgenstein took the view that philosophy could do no more than strive to undo the intellectual knots it itself had tied, so achieving intellectual release, and even a certain illumination, but no knowledge. A little later, and more optimistically, Ryle saw a positive, if reduced role, for philosophy in mapping the "logical geography" of our concepts: how they stood to each other and how they were to be analyzed....

   Since that time, however, philosophers in the "analytic" tradition have swung back from Wittgensteinian and even Rylean pessimism to a more traditional conception of the proper role and tasks of philosophy. Many analytic philosophers now would accept the view that the central task of philosophy is to give an account, or at least play a part in giving an account, of the most general nature of things and of man. (Armstrong, 1990, pp. 37-38)

   8) Philosophy's Evolving Engagement with Artificial Intelligence and Cognitive Science

   In the beginning, the nature of philosophy's engagement with artificial intelligence and cognitive science was clear enough. The new sciences of the mind were to provide the long-awaited vindication of the most potent dreams of naturalism and materialism. Mind would at last be located firmly within the natural order. We would see in detail how the most perplexing features of the mental realm could be supported by the operations of solely physical laws upon solely physical stuff. Mental causation (the power of, e.g., a belief to cause an action) would emerge as just another species of physical causation. Reasoning would be understood as a kind of automated theorem proving. And the key to both was to be the depiction of the brain as the implementation of multiple higher level programs whose task was to manipulate and transform symbols or representations: inner items with one foot in the physical (they were realized as brain states) and one in the mental (they were bearers of contents, and their physical gymnastics were cleverly designed to respect semantic relationships such as truth preservation). (A. Clark, 1996, p. 1)

   9) The Enduring Value of Philosophy

   Socrates of Athens famously declared that "the unexamined life is not worth living," and his motto aptly explains the impulse to philosophize. Taking nothing for granted, philosophy probes and questions the fundamental presuppositions of every area of human inquiry.... [P]art of the job of the philosopher is to keep at a certain critical distance from current doctrines, whether in the sciences or the arts, and to examine instead how the various elements in our world-view clash, or fit together. Some philosophers have tried to incorporate the results of these inquiries into a grand synoptic view of the nature of reality and our human relationship to it. Others have mistrusted system-building, and seen their primary role as one of clarifications, or the removal of obstacles along the road to truth. But all have shared the Socratic vision of using the human intellect to challenge comfortable preconceptions, insisting that every aspect of human theory and practice be subjected to continuing critical scrutiny....

   Philosophy is, of course, part of a continuing tradition, and there is much to be gained from seeing how that tradition originated and developed. But the principal object of studying the materials in this book is not to pay homage to past genius, but to enrich one's understanding of central problems that are as pressing today as they have always been-problems about knowledge, truth and reality, the nature of the mind, the basis of right action, and the best way to live. These questions help to mark out the territory of philosophy as an academic discipline, but in a wider sense they define the human predicament itself; they will surely continue to be with us for as long as humanity endures. (Cottingham, 1996, pp. xxi-xxii)

    10) The Distinction between Dionysian Man and Apollonian Man, between Art and Creativity and Reason and Self- Control

   In his study of ancient Greek culture, The Birth of Tragedy, Nietzsche drew what would become a famous distinction, between the Dionysian spirit, the untamed spirit of art and creativity, and the Apollonian, that of reason and self-control. The story of Greek civilization, and all civilizations, Nietzsche implied, was the gradual victory of Apollonian man, with his desire for control over nature and himself, over Dionysian man, who survives only in myth, poetry, music, and drama. Socrates and Plato had attacked the illusions of art as unreal, and had overturned the delicate cultural balance by valuing only man's critical, rational, and controlling consciousness while denigrating his vital life instincts as irrational and base. The result of this division is "Alexandrian man," the civilized and accomplished Greek citizen of the later ancient world, who is "equipped with the greatest forces of knowledge" but in whom the wellsprings of creativity have dried up. (Herman, 1997, pp. 95-96)

MAC

1) Общая лексика: hum. сокр. Mammalian Artificial Chromosome, hum. сокр. Marker And Cell, (Media Access Control) управление доступом к среде (1. Подуровень канального уровня ( семиуровневой модели OSI). Определяет методы доступа к среде передачи данных, формат кадров и адресацию. 2. Часть протокола канального ур), move, add and change, moves, adds and changes, Midlands Arts Centre

2) Компьютерная техника: Motorola Advanced Computer, Multiple Architecture Computer

3) Авиация: САХ (Средняя Аэродинамическая Хорда)

4) Медицина: синдром Морганьи-Адамса-Стокса

5) Американизм: Market Access and Compliance, Men Against Communism, Multi Agency Complex

6) Спорт: Mid America Conference

7) Военный термин: Maintenance Advisory Committee, Make A Change, Marine amphibious corps, Maritime Air Command, Medical Administration Corps, Military Affairs Committee, Military Areas of Coordination, Military Armistice Commission, Military Assistance Command, Military Aviation College, Missile Advisory Committee, Missile Analysis Center, Mission Assurance Category, Mixed Armistice Commission, Mobile Inshore Undersea Warfare Attack Craft, Multi-Array Correlator, main allocation chart, maintenance allocation chart, major air command, maneuver area command, manpower authorization change, maximum admissible concentration, maximum air concentration, medium armoured car, military aid to the community, missile activation circuit, mission assignment code, mobilization availability category, mock air combat, motor ambulance convoy, смешанная комиссия по перемирию, Military Airlift Command (Now Air Mobility Command), Military Airlift Command (сейчас AMC)

8) Техника: Macintosh computer, maintenance action card, maintenance analysis center, management advisory committee, material accounting, memory access controller, minimal alveolar concentration, multiple-access computer

9) Шутливое выражение: Machine Always Crashes

10) Юридический термин: Middle Aged Cops, (Material Adverse Change) существенное неблагоприятное изменение обстоятельств

11) Страхование: Maritime Arbitration Commission

12) Грубое выражение: Must Act Crappy

13) Горное дело: предельно допустимая концентрация

14) Металлургия: metal-arc cutting

15) Телекоммуникации: Media Access Control (IEEE 802)

16) Сокращение: Macedonian, Mainland China Affairs Council (Taiwan), Mean Aerodynamic Chord, Medium Armored Car (USA), Military Airlift Command (Now defunct (USAF)), Modular Artillery Charge system (US Army), Multiply ACcumulate (computer operation), machine-aided cognition, military aircraft command, monitor and control, multi-application computer, multiple access computer, an MIT interdepartmental lab (renamed to LCS; stands for many things), Maintenance Analysis Centre, Military Air Command, Multiple Access Channel, Multiplier-Accumulator, Multiply and Accumulate

17) Университет: Man And Computer, Mathematics Access Centre, Mathematics And Computation

18) Физиология: Macerated, Monitored Anesthesia Care, Mycobacterium Avium Complex

19) Электроника: Multiplexed Analogue Components

20) Вычислительная техника: media access control, memory address controller, microprocessor-array computer, multiplexed analog component, расширение файлов растровых изображений MacPaint, Membership Advisory Committee (ICANN), Media Access Control (ISO, OSI, LAN, WLAN), Mandatory Access Control (MLS), Message Authentication Code (SSL, SRT, Verschluesselung), an MIT interdepartmental lab (stands for many things, renamed to LCS)

21) Нефть: MPC, maximum acceptable concentration, maximum permissible concentration, карта распределения работ по техническому обслуживанию (maintenance allocation chart), консультативный комитет по техническому обслуживанию (maintenance advisory committee), максимальная допустимая концентрация (minimal allowable concentration), пункт анализа работ по техническому обслуживанию (maintenance analysis center), maximal allowable concentration

22) Анестезиология: monitored anesthesia care (анестезиологическое сопровождение), Минимальная альвеолярная концентрация

23) Иммунология: membrane attack complex

24) Космонавтика: Middle Atmosphere Co-operation programme

25) Транспорт: Manifest Analysis And Certification, Midair Attitude Correction, Military Airlift Command

26) Воздухоплавание: Multi Access Computer

27) СМИ: Media Action Committee, Multiplexed Analog Components

28) Деловая лексика: Marketing Advertising And Communication, Middle Area Conference, Multi Actors Cooperation

29) Бытовая техника: управление доступом к среде передачи

30) Глоссарий компании Сахалин Энерджи: mechanical acceptance certificate, (P) manual alarm call (point), генподряд по системам автоматизации, major automatization contractor главный подрядчик по автоматизации

31) Образование: Minority Achievement Committee

32) Сетевые технологии: Media Access Controller, mandatory access control, medium access control, message authentification code, код аутентификации сообщений, полномочное управление доступом, управление доступом к линии связи, управление доступом к среде

33) ЕБРР: material adverse change, material adverse change condition

34) Полимеры: maximum allowable concentration

35) Программирование: Measured Attenuation Correction

36) Автоматика: manual adaptive control

37) Сахалин Р: Main Automation Contractor, Manual Alarm Call (P)

38) Химическое оружие: MAC daily average

39) Безопасность: message authentication check

40) Криптография: (Message Authentication Code) имитозащита (по крайней мере, в частных случаях программисты имеют в виду это)

41) Расширение файла: Media/Medium Access Control, Message Authentication Code, Multiple Access Computers, Macintosh (Apple Macintosh Computer), Graphic format (MAC Paint)

42) Нефть и газ: Main Automations Contract, контракт на основные средства автоматизации, основной контракт по автоматике, основной контракт по автоматике трубопровода, main automation contract

43) Нефтеперерабатывающие заводы: Кнопки аварийной пожарной сигнализации

44) Майкрософт: код проверки подлинности сообщения

45) Общественная организация: Missions Across Canada

46) Должность: MAKEUP ART and COSMETICS, Management And Administrative Computing

47) Международная торговля: Market Access & Compliance

MAc

1) Общая лексика: hum. сокр. Mammalian Artificial Chromosome, hum. сокр. Marker And Cell, (Media Access Control) управление доступом к среде (1. Подуровень канального уровня ( семиуровневой модели OSI). Определяет методы доступа к среде передачи данных, формат кадров и адресацию. 2. Часть протокола канального ур), move, add and change, moves, adds and changes, Midlands Arts Centre

2) Компьютерная техника: Motorola Advanced Computer, Multiple Architecture Computer

3) Авиация: САХ (Средняя Аэродинамическая Хорда)

4) Медицина: синдром Морганьи-Адамса-Стокса

5) Американизм: Market Access and Compliance, Men Against Communism, Multi Agency Complex

6) Спорт: Mid America Conference

7) Военный термин: Maintenance Advisory Committee, Make A Change, Marine amphibious corps, Maritime Air Command, Medical Administration Corps, Military Affairs Committee, Military Areas of Coordination, Military Armistice Commission, Military Assistance Command, Military Aviation College, Missile Advisory Committee, Missile Analysis Center, Mission Assurance Category, Mixed Armistice Commission, Mobile Inshore Undersea Warfare Attack Craft, Multi-Array Correlator, main allocation chart, maintenance allocation chart, major air command, maneuver area command, manpower authorization change, maximum admissible concentration, maximum air concentration, medium armoured car, military aid to the community, missile activation circuit, mission assignment code, mobilization availability category, mock air combat, motor ambulance convoy, смешанная комиссия по перемирию, Military Airlift Command (Now Air Mobility Command), Military Airlift Command (сейчас AMC)

8) Техника: Macintosh computer, maintenance action card, maintenance analysis center, management advisory committee, material accounting, memory access controller, minimal alveolar concentration, multiple-access computer

9) Шутливое выражение: Machine Always Crashes

10) Юридический термин: Middle Aged Cops, (Material Adverse Change) существенное неблагоприятное изменение обстоятельств

11) Страхование: Maritime Arbitration Commission

12) Грубое выражение: Must Act Crappy

13) Горное дело: предельно допустимая концентрация

14) Металлургия: metal-arc cutting

15) Телекоммуникации: Media Access Control (IEEE 802)

16) Сокращение: Macedonian, Mainland China Affairs Council (Taiwan), Mean Aerodynamic Chord, Medium Armored Car (USA), Military Airlift Command (Now defunct (USAF)), Modular Artillery Charge system (US Army), Multiply ACcumulate (computer operation), machine-aided cognition, military aircraft command, monitor and control, multi-application computer, multiple access computer, an MIT interdepartmental lab (renamed to LCS; stands for many things), Maintenance Analysis Centre, Military Air Command, Multiple Access Channel, Multiplier-Accumulator, Multiply and Accumulate

17) Университет: Man And Computer, Mathematics Access Centre, Mathematics And Computation

18) Физиология: Macerated, Monitored Anesthesia Care, Mycobacterium Avium Complex

19) Электроника: Multiplexed Analogue Components

20) Вычислительная техника: media access control, memory address controller, microprocessor-array computer, multiplexed analog component, расширение файлов растровых изображений MacPaint, Membership Advisory Committee (ICANN), Media Access Control (ISO, OSI, LAN, WLAN), Mandatory Access Control (MLS), Message Authentication Code (SSL, SRT, Verschluesselung), an MIT interdepartmental lab (stands for many things, renamed to LCS)

21) Нефть: MPC, maximum acceptable concentration, maximum permissible concentration, карта распределения работ по техническому обслуживанию (maintenance allocation chart), консультативный комитет по техническому обслуживанию (maintenance advisory committee), максимальная допустимая концентрация (minimal allowable concentration), пункт анализа работ по техническому обслуживанию (maintenance analysis center), maximal allowable concentration

22) Анестезиология: monitored anesthesia care (анестезиологическое сопровождение), Минимальная альвеолярная концентрация

23) Иммунология: membrane attack complex

24) Космонавтика: Middle Atmosphere Co-operation programme

25) Транспорт: Manifest Analysis And Certification, Midair Attitude Correction, Military Airlift Command

26) Воздухоплавание: Multi Access Computer

27) СМИ: Media Action Committee, Multiplexed Analog Components

28) Деловая лексика: Marketing Advertising And Communication, Middle Area Conference, Multi Actors Cooperation

29) Бытовая техника: управление доступом к среде передачи

30) Глоссарий компании Сахалин Энерджи: mechanical acceptance certificate, (P) manual alarm call (point), генподряд по системам автоматизации, major automatization contractor главный подрядчик по автоматизации

31) Образование: Minority Achievement Committee

32) Сетевые технологии: Media Access Controller, mandatory access control, medium access control, message authentification code, код аутентификации сообщений, полномочное управление доступом, управление доступом к линии связи, управление доступом к среде

33) ЕБРР: material adverse change, material adverse change condition

34) Полимеры: maximum allowable concentration

35) Программирование: Measured Attenuation Correction

36) Автоматика: manual adaptive control

37) Сахалин Р: Main Automation Contractor, Manual Alarm Call (P)

38) Химическое оружие: MAC daily average

39) Безопасность: message authentication check

40) Криптография: (Message Authentication Code) имитозащита (по крайней мере, в частных случаях программисты имеют в виду это)

41) Расширение файла: Media/Medium Access Control, Message Authentication Code, Multiple Access Computers, Macintosh (Apple Macintosh Computer), Graphic format (MAC Paint)

42) Нефть и газ: Main Automations Contract, контракт на основные средства автоматизации, основной контракт по автоматике, основной контракт по автоматике трубопровода, main automation contract

43) Нефтеперерабатывающие заводы: Кнопки аварийной пожарной сигнализации

44) Майкрософт: код проверки подлинности сообщения

45) Общественная организация: Missions Across Canada

46) Должность: MAKEUP ART and COSMETICS, Management And Administrative Computing

47) Международная торговля: Market Access & Compliance

Mac

1) Общая лексика: hum. сокр. Mammalian Artificial Chromosome, hum. сокр. Marker And Cell, (Media Access Control) управление доступом к среде (1. Подуровень канального уровня ( семиуровневой модели OSI). Определяет методы доступа к среде передачи данных, формат кадров и адресацию. 2. Часть протокола канального ур), move, add and change, moves, adds and changes, Midlands Arts Centre

2) Компьютерная техника: Motorola Advanced Computer, Multiple Architecture Computer

3) Авиация: САХ (Средняя Аэродинамическая Хорда)

4) Медицина: синдром Морганьи-Адамса-Стокса

5) Американизм: Market Access and Compliance, Men Against Communism, Multi Agency Complex

6) Спорт: Mid America Conference

7) Военный термин: Maintenance Advisory Committee, Make A Change, Marine amphibious corps, Maritime Air Command, Medical Administration Corps, Military Affairs Committee, Military Areas of Coordination, Military Armistice Commission, Military Assistance Command, Military Aviation College, Missile Advisory Committee, Missile Analysis Center, Mission Assurance Category, Mixed Armistice Commission, Mobile Inshore Undersea Warfare Attack Craft, Multi-Array Correlator, main allocation chart, maintenance allocation chart, major air command, maneuver area command, manpower authorization change, maximum admissible concentration, maximum air concentration, medium armoured car, military aid to the community, missile activation circuit, mission assignment code, mobilization availability category, mock air combat, motor ambulance convoy, смешанная комиссия по перемирию, Military Airlift Command (Now Air Mobility Command), Military Airlift Command (сейчас AMC)

8) Техника: Macintosh computer, maintenance action card, maintenance analysis center, management advisory committee, material accounting, memory access controller, minimal alveolar concentration, multiple-access computer

9) Шутливое выражение: Machine Always Crashes

10) Юридический термин: Middle Aged Cops, (Material Adverse Change) существенное неблагоприятное изменение обстоятельств

11) Страхование: Maritime Arbitration Commission

12) Грубое выражение: Must Act Crappy

13) Горное дело: предельно допустимая концентрация

14) Металлургия: metal-arc cutting

15) Телекоммуникации: Media Access Control (IEEE 802)

16) Сокращение: Macedonian, Mainland China Affairs Council (Taiwan), Mean Aerodynamic Chord, Medium Armored Car (USA), Military Airlift Command (Now defunct (USAF)), Modular Artillery Charge system (US Army), Multiply ACcumulate (computer operation), machine-aided cognition, military aircraft command, monitor and control, multi-application computer, multiple access computer, an MIT interdepartmental lab (renamed to LCS; stands for many things), Maintenance Analysis Centre, Military Air Command, Multiple Access Channel, Multiplier-Accumulator, Multiply and Accumulate

17) Университет: Man And Computer, Mathematics Access Centre, Mathematics And Computation

18) Физиология: Macerated, Monitored Anesthesia Care, Mycobacterium Avium Complex

19) Электроника: Multiplexed Analogue Components

20) Вычислительная техника: media access control, memory address controller, microprocessor-array computer, multiplexed analog component, расширение файлов растровых изображений MacPaint, Membership Advisory Committee (ICANN), Media Access Control (ISO, OSI, LAN, WLAN), Mandatory Access Control (MLS), Message Authentication Code (SSL, SRT, Verschluesselung), an MIT interdepartmental lab (stands for many things, renamed to LCS)

21) Нефть: MPC, maximum acceptable concentration, maximum permissible concentration, карта распределения работ по техническому обслуживанию (maintenance allocation chart), консультативный комитет по техническому обслуживанию (maintenance advisory committee), максимальная допустимая концентрация (minimal allowable concentration), пункт анализа работ по техническому обслуживанию (maintenance analysis center), maximal allowable concentration

22) Анестезиология: monitored anesthesia care (анестезиологическое сопровождение), Минимальная альвеолярная концентрация

23) Иммунология: membrane attack complex

24) Космонавтика: Middle Atmosphere Co-operation programme

25) Транспорт: Manifest Analysis And Certification, Midair Attitude Correction, Military Airlift Command

26) Воздухоплавание: Multi Access Computer

27) СМИ: Media Action Committee, Multiplexed Analog Components

28) Деловая лексика: Marketing Advertising And Communication, Middle Area Conference, Multi Actors Cooperation

29) Бытовая техника: управление доступом к среде передачи

30) Глоссарий компании Сахалин Энерджи: mechanical acceptance certificate, (P) manual alarm call (point), генподряд по системам автоматизации, major automatization contractor главный подрядчик по автоматизации

31) Образование: Minority Achievement Committee

32) Сетевые технологии: Media Access Controller, mandatory access control, medium access control, message authentification code, код аутентификации сообщений, полномочное управление доступом, управление доступом к линии связи, управление доступом к среде

33) ЕБРР: material adverse change, material adverse change condition

34) Полимеры: maximum allowable concentration

35) Программирование: Measured Attenuation Correction

36) Автоматика: manual adaptive control

37) Сахалин Р: Main Automation Contractor, Manual Alarm Call (P)

38) Химическое оружие: MAC daily average

39) Безопасность: message authentication check

40) Криптография: (Message Authentication Code) имитозащита (по крайней мере, в частных случаях программисты имеют в виду это)

41) Расширение файла: Media/Medium Access Control, Message Authentication Code, Multiple Access Computers, Macintosh (Apple Macintosh Computer), Graphic format (MAC Paint)

42) Нефть и газ: Main Automations Contract, контракт на основные средства автоматизации, основной контракт по автоматике, основной контракт по автоматике трубопровода, main automation contract

43) Нефтеперерабатывающие заводы: Кнопки аварийной пожарной сигнализации

44) Майкрософт: код проверки подлинности сообщения

45) Общественная организация: Missions Across Canada

46) Должность: MAKEUP ART and COSMETICS, Management And Administrative Computing

47) Международная торговля: Market Access & Compliance

mac

1) Общая лексика: hum. сокр. Mammalian Artificial Chromosome, hum. сокр. Marker And Cell, (Media Access Control) управление доступом к среде (1. Подуровень канального уровня ( семиуровневой модели OSI). Определяет методы доступа к среде передачи данных, формат кадров и адресацию. 2. Часть протокола канального ур), move, add and change, moves, adds and changes, Midlands Arts Centre

2) Компьютерная техника: Motorola Advanced Computer, Multiple Architecture Computer

3) Авиация: САХ (Средняя Аэродинамическая Хорда)

4) Медицина: синдром Морганьи-Адамса-Стокса

5) Американизм: Market Access and Compliance, Men Against Communism, Multi Agency Complex

6) Спорт: Mid America Conference

7) Военный термин: Maintenance Advisory Committee, Make A Change, Marine amphibious corps, Maritime Air Command, Medical Administration Corps, Military Affairs Committee, Military Areas of Coordination, Military Armistice Commission, Military Assistance Command, Military Aviation College, Missile Advisory Committee, Missile Analysis Center, Mission Assurance Category, Mixed Armistice Commission, Mobile Inshore Undersea Warfare Attack Craft, Multi-Array Correlator, main allocation chart, maintenance allocation chart, major air command, maneuver area command, manpower authorization change, maximum admissible concentration, maximum air concentration, medium armoured car, military aid to the community, missile activation circuit, mission assignment code, mobilization availability category, mock air combat, motor ambulance convoy, смешанная комиссия по перемирию, Military Airlift Command (Now Air Mobility Command), Military Airlift Command (сейчас AMC)

8) Техника: Macintosh computer, maintenance action card, maintenance analysis center, management advisory committee, material accounting, memory access controller, minimal alveolar concentration, multiple-access computer

9) Шутливое выражение: Machine Always Crashes

10) Юридический термин: Middle Aged Cops, (Material Adverse Change) существенное неблагоприятное изменение обстоятельств

11) Страхование: Maritime Arbitration Commission

12) Грубое выражение: Must Act Crappy

13) Горное дело: предельно допустимая концентрация

14) Металлургия: metal-arc cutting

15) Телекоммуникации: Media Access Control (IEEE 802)

16) Сокращение: Macedonian, Mainland China Affairs Council (Taiwan), Mean Aerodynamic Chord, Medium Armored Car (USA), Military Airlift Command (Now defunct (USAF)), Modular Artillery Charge system (US Army), Multiply ACcumulate (computer operation), machine-aided cognition, military aircraft command, monitor and control, multi-application computer, multiple access computer, an MIT interdepartmental lab (renamed to LCS; stands for many things), Maintenance Analysis Centre, Military Air Command, Multiple Access Channel, Multiplier-Accumulator, Multiply and Accumulate

17) Университет: Man And Computer, Mathematics Access Centre, Mathematics And Computation

18) Физиология: Macerated, Monitored Anesthesia Care, Mycobacterium Avium Complex

19) Электроника: Multiplexed Analogue Components

20) Вычислительная техника: media access control, memory address controller, microprocessor-array computer, multiplexed analog component, расширение файлов растровых изображений MacPaint, Membership Advisory Committee (ICANN), Media Access Control (ISO, OSI, LAN, WLAN), Mandatory Access Control (MLS), Message Authentication Code (SSL, SRT, Verschluesselung), an MIT interdepartmental lab (stands for many things, renamed to LCS)

21) Нефть: MPC, maximum acceptable concentration, maximum permissible concentration, карта распределения работ по техническому обслуживанию (maintenance allocation chart), консультативный комитет по техническому обслуживанию (maintenance advisory committee), максимальная допустимая концентрация (minimal allowable concentration), пункт анализа работ по техническому обслуживанию (maintenance analysis center), maximal allowable concentration

22) Анестезиология: monitored anesthesia care (анестезиологическое сопровождение), Минимальная альвеолярная концентрация

23) Иммунология: membrane attack complex

24) Космонавтика: Middle Atmosphere Co-operation programme

25) Транспорт: Manifest Analysis And Certification, Midair Attitude Correction, Military Airlift Command

26) Воздухоплавание: Multi Access Computer

27) СМИ: Media Action Committee, Multiplexed Analog Components

28) Деловая лексика: Marketing Advertising And Communication, Middle Area Conference, Multi Actors Cooperation

29) Бытовая техника: управление доступом к среде передачи

30) Глоссарий компании Сахалин Энерджи: mechanical acceptance certificate, (P) manual alarm call (point), генподряд по системам автоматизации, major automatization contractor главный подрядчик по автоматизации

31) Образование: Minority Achievement Committee

32) Сетевые технологии: Media Access Controller, mandatory access control, medium access control, message authentification code, код аутентификации сообщений, полномочное управление доступом, управление доступом к линии связи, управление доступом к среде

33) ЕБРР: material adverse change, material adverse change condition

34) Полимеры: maximum allowable concentration

35) Программирование: Measured Attenuation Correction

36) Автоматика: manual adaptive control

37) Сахалин Р: Main Automation Contractor, Manual Alarm Call (P)

38) Химическое оружие: MAC daily average

39) Безопасность: message authentication check

40) Криптография: (Message Authentication Code) имитозащита (по крайней мере, в частных случаях программисты имеют в виду это)

41) Расширение файла: Media/Medium Access Control, Message Authentication Code, Multiple Access Computers, Macintosh (Apple Macintosh Computer), Graphic format (MAC Paint)

42) Нефть и газ: Main Automations Contract, контракт на основные средства автоматизации, основной контракт по автоматике, основной контракт по автоматике трубопровода, main automation contract

43) Нефтеперерабатывающие заводы: Кнопки аварийной пожарной сигнализации

44) Майкрософт: код проверки подлинности сообщения

45) Общественная организация: Missions Across Canada

46) Должность: MAKEUP ART and COSMETICS, Management And Administrative Computing

47) Международная торговля: Market Access & Compliance

Mathematics

   1) The World of Mathematics Is Really a Beautiful World

   The world of mathematics, which you contemn, is really a beautiful world; it has nothing to do with life and death and human sordidness, but is eternal, cold and passionless. To me pure mathematics is one of the highest forms of art; it has a sublimity quite special to itself, and an immense dignity derived from the fact that its world is exempt from change and time. I am quite serious in this....

athematics is the only thing we know of that is capable of perfection; in thinking about it we become Gods. (Russell [to Helen Thomas, 30 December 1901], 1992, Letter No. 98, p. 224)

   2) Why Mathematics Works

   One of the deepest problems of nature is the success of mathematics as a language for describing and discovering features of physical reality. In short, why does mathematics work?...

   We humans have stripped back the clouds that cloak our understanding of our cosmic beginning and our current persistence to the stage that exposes the mathematical structure of the world more clearly than it has ever been observed before.... Furthermore, the attention of seriously equipped thinkers, those thinkers we call scientists, is at last beginning to turn to that other great conundrum of being: consciousness.... If we can understand why that supreme construct of the human intellect, that archdisembodiment of intellect, mathematics, works as a description of the world, then maybe we shall have an insight into cognition....

   The name deep structuralism is intended to convey the idea that the physical world has the same logical structure as mathematics. By implication, the reason why mathematics works as a description of physical reality is that they share the same logical structure.

... By weak deep structuralism I shall mean that mathematics and physical reality merely share the same logical structure and mathematics is a mirror that can be held up to nature. By strong deep structuralism I shall mean that mathematics and physical reality do not merely share the same logical structure but are actually the same. In other words, according to the hypothesis of strong deep structuralism, physical reality is mathematics and mathematics is physical reality.... The reason why we may be conscious of the world, including the inner, introspective world of emotion and intellect, may be that our brains are material portrayals of the same deep structure. That may also be the reason why brains can generate the mathematics that we need to comprehend the world. (Atkins, 1992, pp. 99-101, 109-111)