Logical Empiricism as Scientific Philosophy

Alan W. Richardson

doi:10.1017/9781009471497

Series: Elements in the Philosophy of Science

Logical Empiricism as Scientific Philosophy

Published online by Cambridge University Press: 11 December 2023

Alan W. Richardson

Show author details

Alan W. Richardson: Affiliation:
University of British Columbia

Summary

This Element offers a new account of the philosophical significance of logical empiricism that relies on the past forty years of literature reassessing the project. It argues that while logical empiricism was committed to empiricism and did become tied to the trajectory of analytic philosophy, neither empiricism nor logical analysis per se was the deepest philosophical commitment of logical empiricism. That commitment was, rather, securing the scientific status of philosophy, bringing philosophy into a scientific conception of the world.

Element contents

Summary
References

Get access

Keywords

analytic philosophy empiricism history of philosophy of science logical empiricism scientific philosophy

Type: Element
Information: Series: Elements in the Philosophy of Science

DOI: https://doi.org/10.1017/9781009471497 [Opens in a new window]

Online ISBN: 9781009471497

Publisher: Cambridge University Press

Print publication: 18 January 2024

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bergson, H. [1903] 1999. Introduction to Metaphysics. Indianapolis, IN: Hackett.Google Scholar

Black, M. 1950. Introduction. In Black, M. (ed.), Philosophical Analysis, pp. 1–13. Englewood Cliffs, NJ: Prentice-Hall.Google Scholar

Blumberg, A. E. and Feigl, H.. 1931. Logical Positivism. Journal of Philosophy 28(11): 281–296.CrossRef Google Scholar

Brown, M. 2015. Politicizing Science: Conceptions of Politics in Science and Technology Studies. Social Studies of Science 45(1): 3–30.CrossRef Google Scholar PubMed

Brun, G. 2016. Explication As a Method of Conceptual Re-engineering. Erkenntnis 81(6): 1211–1241.Google Scholar

Cappelen, H. 2018. Fixing Language: An Essay on Conceptual Engineering. Oxford: Oxford University Press.CrossRef Google Scholar

Carnap, R. [1922] 2019b. Space: A Contribution to the Theory of Science. In Carus, P. W., Friedman, M., Kienzler, W., Richardson, A., and Schlotter, S. (eds.), The Collected Works of Rudolf Carnap, Volume 1: Early Writings, pp. 21–171. Oxford: Oxford University Press.Google Scholar

Carnap, R. [1923] 2019a. On the Task of Physics and the Application of the Principle of Maximal Simplicity. In Carus, P. W., Friedman, M., Kienzler, W., Richardson, A., and Schlotter, S. (eds.), The Collected Works of Rudolf Carnap, Volume 1: Early Writings, pp. 209–241. Oxford: Oxford University Press.Google Scholar

Carnap, R. [1928] 1961a. The Logical Structure of the World. Berkeley: University of California Press.Google Scholar

Carnap, R. [1928] 1961b. Pseudoproblems in Philosophy. In Carnap, R., The Logical Structure of the World, pp. 300–343. Berkeley: University of California Press.Google Scholar

Carnap, R. [1934] 1937. The Logical Syntax of Language. London: Kegan Paul, Trench, Trubner.Google Scholar

Carnap, R. 1935. Philosophy and Logical Syntax. London: Kegan Paul, Trench, Trubner.Google Scholar

Carnap, R. 1936/1937. Testability and Meaning. Philosophy of Science 3(4): 419–471; 4(1): 1–40.Google Scholar

Carnap, R. [1950] 1956a. Empiricism, Semantics, and Ontology. In Carnap, R., Meaning and Necessity. 2nd ed., pp. 205–221. Chicago, IL: University of Chicago Press.Google Scholar

Carnap, R. 1956b. Meaning and Necessity. 2nd ed. Chicago, IL: University of Chicago Press.Google Scholar

Carnap, R. 1963. Replies and Systematic Expositions. In Schilpp, P. A. (ed.), The Philosophy of Rudolf Carnap, pp. 859–1013. LaSalle, IL: Open Court.Google Scholar

Cartwright, N., Cat, J., Fleck, L., and Uebel, T. E.. 1996. Otto Neurath: Philosophy between Science and Politics. Cambridge: Cambridge University Press.CrossRef Google Scholar

Carus, A. W. 2007. Carnap and Twentieth-Century Thought. Cambridge: Cambridge University Press.CrossRef Google Scholar

Carus, A. W. 2016. Carnap and Phenomenology: What Happened in 1924? In Damböck, C. (ed.), Influences on the Aufbau, pp. 137–162. Cham: Springer.Google Scholar

Carus, P. W., Friedman, M., Kienzler, W., Richardson, A., and Schlotter, S. (eds.). 2019. The Collected Works of Rudolf Carnap, Volume 1: Early Writings. Oxford: Oxford University Press.Google Scholar

Cassirer, E. 1910. Substanzbegriff und Functionsbegriff. Berlin: B. Cassirer.Google Scholar

Cat, J. 2019. Neurath and the Legacy of Algebraic Logic. In Cat, J. and Tuboly, A. (eds.), Neurath Reconsidered, pp. 241–337. Cham: Springer.Google Scholar

Cat, J. and Tuboly, A. (eds.). 2019. Neurath Reconsidered. Cham: Springer.Google Scholar

Creath, R. 1990. The Unimportance of Semantics. Philosophy of Science Association (1990): 405–416.Google Scholar

Creath, R. (ed.). 1991. Dear Carnap, Dear Van. Berkeley: University of California Press.Google Scholar

Damböck, C., Sander, G., and Werner, M. (eds.). 2021. Logical Empiricism, Life Reform, and the German Youth Movement. Dordrecht: Springer.Google Scholar

Ducasse, C. J. 1941. Philosophy As a Science. New York: Oskar Piest.Google Scholar

Dutilh Novaes, C. 2020. Carnap Meets Foucault: Conceptual Engineering and Genealogical Investigations. Inquiry. https://doi.org/10.1080/0020174X.2020.1860122.Google Scholar

Edmonds, D. 2020. The Murder of Professor Schlick. Princeton, NJ: Princeton University Press.Google Scholar

Feigl, H. 1981. Inquiries and Provocations. Dordrecht: Reidel.CrossRef Google Scholar

Feigl, Herbert, and Sellars, Wilfrid (eds.). 1949. Readings in Philosophical Analysis. New York: Appleton-Century-Crofts.Google Scholar

Frank, P. [1946] 1955. Foundations of Physics. In Neurath, O., Carnap, R., and Morris, C. (eds.), The Encyclopedia of Unified Science, Volume 1, pp. 423–504. Chicago, IL: University of Chicago Press.Google Scholar

Frank, P. 1951. Modern Science and Its Philosophy. Cambridge, MA: Harvard University Press.Google Scholar

Frege, G. [1884] 1960. Foundations of Arithmetic. Evanston, IL: Northwestern University Press.Google Scholar

Frege, G. [1893] 1997. Grundgesetze der Arithmetik, Volume One. Excerpts in Beaney, M. (ed.), The Frege Reader, pp. 194–223. Oxford: Blackwell.Google Scholar

Friedman, J. T. and Luft, S. (eds.). 2015. The Philosophy of Ernst Cassirer. Berlin: DeGruyter.Google Scholar

Friedman, M. 1983. Foundations of Space-Time Theories. Princeton, NJ: Princeton University Press.Google Scholar

Friedman, M. 1999. Reconsidering Logical Positivism. Cambridge: Cambridge University Press.Google Scholar

Friedman, M. 2000a. A Parting of the Ways. Chicago, IL: Open Court.Google Scholar

Friedman, M. 2000b. Hempel and the Vienna Circle. In Fetzer, J. H. (ed.), Science, Explanation, and Rationality, pp. 39–64. Oxford: Oxford University Press.Google Scholar

Frost-Arnold, G. 2013. Carnap, Tarski, and Quine at Harvard: Conversations on Logic, Mathematics, and Science. Chicago, IL: Open Court.Google Scholar

Galison, P. 1996. Constructing Modernism: The Cultural Location of Aufbau. In Giere, R. N. and Richardson, A. (eds.), Origins of Logical Empiricism, pp. 17–44. Minneapolis: University of Minnesota Press.Google Scholar

Haller, R. 1993. Neupositivismus. Darmstadt: Wissenschaftliche Buchgesellschaft.Google Scholar

Harris, E. E. 1952. Scientific Philosophy. Philosophical Quarterly 2(7): 153–165.CrossRef Google Scholar

Heidegger, M. [1925] 1985. History of the Concept of Time. Bloomington: Indiana University Press.Google Scholar

Heidegger, M. [1927] 1982. Basic Problems of Phenomenology. Bloomington: Indiana University Press.Google Scholar

Heidegger, M. [1928/1929] 1996. Einleitung in die Philosophie. Frankfurt: Vittorio Klostermann.Google Scholar

Heidegger, M. [1929] 1977. What Is Metaphysics? In Heidegger, M., Basic Writings, pp. 95–112. New York: Harper & Row.Google Scholar

Heis, J. 2010. “Critical Philosophy Begins at the Very Point Where Logistic Leaves Off”: Cassirer’s Response to Frege and Russell. Perspectives on Science 18(4): 383–408.CrossRef Google Scholar

Hempel, C. G. 1965. Aspects of Scientific Explanation. New York: Free Press.Google Scholar

Hook, Sidney. 1930. A Personal Impression of Contemporary German Philosophy. Journal of Philosophy 27(6): 141–160.Google Scholar

Howard, D. 2003. Two Left Turns Make a Right: On the Curious Political Career of North American Philosophy of Science at Midcentury. In Hardcastle, G. L. and Richardson, A. (eds.), Logical Empiricism in North America, pp. 25–93. Minneapolis: University of Minnesota Press, 2003.Google Scholar

Howard, D. 2010. “Let Me Briefly Indicate Why I Do Not Find This Standpoint Natural”: Einstein, General Relativity, and the Contingent a Priori. In Domski, M. and Dickson, M. (eds.), Discourse on a New Method, pp. 333–355. LaSalle, IL: Open Court.Google Scholar

Husserl, E. [1911] 1965. Philosophy As Rigorous Science. In Husserl, E., Phenomenology and the Crisis of Philosophy, pp. 71–147. New York: Harper & Row.Google Scholar

Isaac, M. G., Koch, S., and Nedft, R.. 2022. Conceptual Engineering: A Roadmap to Practice. Philosophy Compass 17(10): 1–15.CrossRef Google Scholar

Joergensen, J. 1951. The Development of Logical Empiricism. Chicago, IL: University of Chicago Press.Google Scholar

Matherne, S. 2021. Cassirer. London: Routledge.CrossRef Google Scholar

Merton, R. K. [1942] 1973. The Normative Structure of Science. In Merton, R. K., The Sociology of Science, pp. 267–278. Chicago, IL: University of Chicago Press.Google Scholar

Milkov, N. 2013. Carl Hempel: Whose Philosopher? In Milkov, N. and Peckhaus, V. (eds.), The Berlin Group and the Philosophy of Logical Empiricism, pp. 293–308. Dordrecht: Springer.Google Scholar

Milkov, N. and Peckhaus, V. (eds.). 2013. The Berlin Group and the Philosophy of Logical Empiricism. Dordrecht: Springer.Google Scholar

Morris, C. 1935. Science of Philosophy and Philosophy of Science. Philosophy of Science 2(3): 271–286.Google Scholar

Nagel, E. 1936. Impressions and Appraisals of Analytic Philosophy in Europe. I. Journal of Philosophy 33(1): 5–24.Google Scholar

Nemeth, E. 1981. Otto Neurath und der Wiener Kreis. Frankfurt: Campus.Google Scholar

Neurath, O. [1938] 1955. Unified Science As Encyclopedic Integration. In Neurath, O., Carnap, R., and Morris, C. (eds.), The Encyclopedia of Unified Science, Volume 1, pp. 1–27. Chicago, IL: University of Chicago Press.Google Scholar

Neurath, O. 1983. Philosophical Papers, 1913–1946. Dordrecht: Reidel.Google Scholar

Neurath, O, Carnap, R., and Hahn, H.. [1929] 2012. Wissenschaftliche Weltauffassung. Der Wiener Kreis. Reprint and translation ed. Stadler, F. and Uebel, T. E. (eds.). Vienna: Springer.Google Scholar

Padovani, F. 2011. Relativizing the Relativized a Priori: Reichenbach’s Axioms of Coordination Divided. Synthese 181(1): 41–62.Google Scholar

Padovani, F. 2021. Hans Reichenbach and the Freistudentenschaft: School Reform, Pedagogy, and Freedom. In Damböck, C. et al. (eds.), Logical Empiricism, Life Reform, and the German Youth Movement, pp. 81–103. Dordrecht: Springer.Google Scholar

Passmore, J. 1957. A Hundred Years of Philosophy. London: Duckworth.Google Scholar

Poincaré, H. [1902] 2017. Science and Hypothesis. London: Bloomsbury.Google Scholar

Popper, K. R. [1963] 2002. Conjectures and Refutations. London: Routledge.Google Scholar

Putnam, R. A. 1978. UCLA, 1951–53. In Reichenbach, H., Selected Writings, 1909–1953, Volume One, pp. 61–64. Dordrecht: Reidel.Google Scholar

Quine, W. V. 1951. Two Dogmas of Empiricism. Philosophical Review 60(1): 20–43.CrossRef Google Scholar

Quine, W.V. 1960. Word and Object. Cambridge, MA: MIT Press.Google Scholar

Quine, W. V. 1963. Carnap and Logical Truth. In Schilpp, P. A. (ed.), The Philosophy of Rudolf Carnap, pp. 385–406. LaSalle, IL: Open Court.Google Scholar

Quine, W. V. 1969. Epistemology Naturalized. In Quine, W. V., Ontological Relativity and Other Essays, pp. 69–90. New York. Columbia University Press.CrossRef Google Scholar

Quine, W. V. 1981. Five Milestones of Empiricism. In Quine, W. V., Theories and Things, pp. 67–72. Cambridge, MA: Harvard Belknap.Google Scholar

Reichenbach, H. [1913] 1978. The Free Student Idea: Its Unified Contents. In Richenbach, H., Selected Writings, 1909–1953, Volume One, pp. 108–123. Dordrecht: Reidel.Google Scholar

Reichenbach, H. [1916] 2008. The Concept of Probability in the Mathematical Representation of Reality. LaSalle, IL: Open Court.Google Scholar

Reichenbach, H. [1920] 1965. The Theory of Relativity and a Priori Knowledge. Berkeley: University of California Press.Google Scholar

Reichenbach, H. [1928] 1958. The Philosophy of Space and Time. New York: Dover.Google Scholar

Reichenbach, H. [1929] 1978. New Approaches in Science: Philosophical Research. In Reichenbach, H., Selected Writings, 1909–1953, Volume One, pp. 249–253. Dordrecht: Reidel.Google Scholar

Reichenbach, H. [1930] 1978. The Philosophical Significance of Modern Physics. In Reichenbach, H., Selected Writings, 1909–1953, Volume One, pp. 304–323. Dordrecht: Reidel.Google Scholar

Reichenbach, H. 1936. Logistic Empiricism and the Current State of Its Problems. Journal of Philosophy 33(6): 141–160.Google Scholar

Reichenbach, H. 1951. The Rise of Scientific Philosophy. Berkeley: University of California Press.Google Scholar

Reichenbach, H. 1978. Selected Writings, 1909–1953, Volume One. Dordrecht: Reidel.Google Scholar

Reisch, G. 2005. How the Cold War Transformed Philosophy of Science. Cambridge: Cambridge University Press.Google Scholar

Richardson, A. 1997. Toward a History of Scientific Philosophy. Perspectives on Science 5(3): 418–451.Google Scholar

Richardson, A. 1998. Carnap’s Construction of the World. Cambridge: Cambridge University Press.Google Scholar

Richardson, A. 2013. Taking the Measure of Carnap’s Philosophical Engineering: Metalogic As Metrology. In Reck, E. (ed.), The Historical Turn in Analytic Philosophy, pp. 60–77. Basingstoke: Palgrave MacMillan.Google Scholar

Richardson, A. 2016. Cassirer’s Substance Concept and Functional Concept. In Schliesser, E. (ed.), Ten Neglected Classics of Philosophy, pp. 177–194. Oxford: Oxford University Press.Google Scholar

Richardson, A. 2017. “Neither a Confession nor an Accusation”: Michael Polanyi, Hans Reichenbach, and Philosophical Modernity after World War One. Historical Studies in the Natural Sciences 47 (2017): 423–442.CrossRef Google Scholar

Richardson, A. 2021. Hans Reichenbach, Radio Philosopher. Synthese 199(5/6): 12625–12641.Google Scholar

Richardson, S. 2009a. The Left Vienna Circle, Part 1. Carnap, Neurath, and the Left Vienna Circle Thesis. Studies in History and Philosophy of Science 40(1): 14–24.Google Scholar

Richardson, S. 2009b. The Left Vienna Circle, Part 2. The Left Vienna Circle, Disciplinary History, and Feminist Philosophy of Science. Studies in History and Philosophy of Science 40(2): 167–174.CrossRef Google Scholar

Ringer, F. 1969. The Decline of the German Mandarins: The German Academic Community, 1890–1933. Cambridge, MA: Harvard University Press.Google Scholar

Romizi, D. 2012. The Vienna Circle’s “Scientific World-Conception”: Philosophy of Science in the Political Arena. HOPOS: Journal of the International Society for the History of Philosophy of Science 2(2): 205–242.Google Scholar

Russell, Bertrand. [1914] 1993. Our Knowledge of the External World. London: Routledge.Google Scholar

Ryckman, T. 2005. The Reign of Relativity. Oxford: Oxford University Press.Google Scholar

Ryckman, T. 2008. Carnap and Husserl. In Friedman, M. and Creath, R. (eds.), The Cambridge Companion to Carnap, pp. 81–105. Cambridge: Cambridge University Press.Google Scholar

Sarkar, S. 2003. Husserl’s Role in Carnap’s Der Raum. In Bonk, T. (ed.), Language, Truth, and Knowledge, pp. 179–190. Dordrecht: Kluwer.Google Scholar

Scheler, M. [1913] 2018. Versuche einer Philosophie des Lebens. Munich: Albunea.Google Scholar

Schlick, M. [1918/1925] 1974. General Theory of Knowledge. Vienna: Springer.Google Scholar

Schlick, M. [1919] 1963. Space and Time in Contemporary Physics. New York: Dover.Google Scholar

Schlick, M. [1930] 1959. The Turning Point in Philosophy. In Ayer, A. J. (ed.), Logical Positivism, pp. 53–59. New York: Free Press.Google Scholar

Soames, S. 2018. The Analytic Tradition in Philosophy, Volume 2: A New Vision. Princeton, NJ: Princeton University Press.CrossRef Google Scholar

Spengler, O. [1918/1922] 1991.The Decline of the West. Oxford: Oxford University Press.Google Scholar

Stadler, F. 2015. The Vienna Circle. 2nd ed. Vienna: Springer.Google Scholar

Stone, A. 2006. Heidegger and Carnap on the Overcoming of Metaphysics. In Mulhall, S. (ed.), Martin Heidegger, pp. 217–244. London: Routledge.Google Scholar

Stroll, A. 2001. Twentieth-Century Analytic Philosophy. New York: Columbia University Press.Google Scholar

Uebel, T. E. 2004. Education, Enlightenment, and Positivism: The Vienna Circle’s Scientific World-Conception Revisited. Science & Education 13(1/2): 41–66.Google Scholar

Uebel, T. E. 2005. Political Philosophy of Science in Logical Empiricism: The Left Vienna Circle. Studies in History and Philosophy of Science 36(4): 754–773.Google Scholar

Uebel, T. E. 2010. What’s Right about Carnap, Neurath and the Left Vienna Circle Thesis: A Refutation. Studies in History and Philosophy of Science 41(2): 214–221.Google Scholar

Uebel, T. E. 2012. On the Production History and Early Reception of The Scientific Conception of the World. The Vienna Circle. In Neurath, O. et al., Wissenschaftliche Weltauffassung. Der Wiener Kreis. Reprint and translation ed. Stadler, F. and Uebel, T. E. (eds.), pp. 291–314. Vienna: Springer.Google Scholar

Uebel, T. E. 2015. Empiricism at the Crossroads. LaSalle, IL: Open Court.Google Scholar

Uebel, T. E. 2020. Intersubjective Accountability: Politics and Philosophy in the Left Vienna Circle. Perspectives on Science 28(1): 35–62.Google Scholar

Verhaegh, S. 2020. The American Reception of Logical Positivism: First Encounters (1929–1932). HOPOS: Journal of the International Society for the History of Philosophy of Science 10(1): 106–142.Google Scholar

Wittgenstein, L. [1921] 2001. Tractatus Logico-Philosophicus. London: Routledge.Google Scholar

Element contents

Logical Empiricism as Scientific Philosophy

Summary

Keywords

Access options

References

Save element to Kindle

Save element to Dropbox

Save element to Google Drive