The Concept of Observation in Science and Philosophy | Philosophy of Science | Cambridge Core

Through a study of a sophisticated contemporary scientific experiment, it is shown how and why use of the term ‘observation’ in reference to that experiment departs from ordinary and philosophical usages which associate observation epistemically with perception. The role of “background information” is examined, and general conclusions are arrived at regarding the use of descriptive language in and in talking about science. These conclusions bring out the reasoning by which science builds on what it has learned, and, further, how that process of building consists not only in adding to our substantive knowledge, but also in increasing our ability to learn about nature, by extending our ability to observe it in new ways. The argument of this paper is thus a step toward understanding how it is that all our knowledge of nature rests on observation.

Alvarez, W. (1949), “A Proposed Experimental Test of the Neutrino Theory.” University of California Radiation Laboratory Report No. 328, 1949. Reprinted in Reines, F., and Trimble, V. (eds.), Proceedings, Solar Neutrino Conference, University of California at Irvine and the Western White House, 25–26 February, 1972. Distributed in photocopy.Google Scholar

Bancall, J. N. (1969), “Neutrinos from the Sun”, Scientific American 221, #1 (July): 28–37.10.1038/scientificamerican0769-28CrossRefGoogle Scholar

Bahcall, J. N. (1967), “Solar Neutrinos”, in Alexander, G. (ed.), High Energy Physics and Nuclear Structure. Amsterdam: North-Holland: 232–255.Google Scholar

Bahcall, J. N. (1973), “Solar Neutrinos”, in DeBoer, J., and Mang, H. (eds.), Proceedings of the International Conference on Nuclear Physics, Munich, Aug. 27–Sept. 1, 1973. Amsterdam: North-Holland: 681–716.Google Scholar

Bahcall, J. N. (1964), “Solar Neutrinos. I, Theoretical”, Physical Review Letters 12: 300–302.CrossRefGoogle Scholar

Bahcall, J. N. (1979), “Solar Neutrinos: Theory versus Observation”, Space Science Reviews 24: 227–251.CrossRefGoogle Scholar

Bahcall, J. N., and Davis, R. Jr. (1981), “An Account of the Development of the Solar Neutrino Problem”, in Barnes, C. A., Clayton, D. D., and Schramm, D. N. (eds.), Essays in Nuclear Astrophysics, Ch. XII. Cambridge: Cambridge University Press.Google Scholar

Bahcall, J. N., and Davis, R. Jr. (1966), “On the Problem of Detecting Solar Neutrinos”, in Stein, R. F., and Cameron, A. G. W. (eds.), Stellar Evolution. New York: Plenum Press: 241–243.Google Scholar

Bahcall, J. N., Fowler, W. A., Iben, I., and Sears, R. L. (1963), “Solar Neutrino Flux”, Astrophysical Journal 137: 344–345.10.1086/147513CrossRefGoogle Scholar

Bethe, H. A., and Critchfield, C. L. (1938), “The Formation of Deuterons by Proton Combination”, Physical Review 54: 248–254.CrossRefGoogle Scholar

Carnap, R. (1950), Testability and Meaning. New Haven: Whitlock's.Google Scholar

Carnap, R. (1956), “The Methodological Character of Theoretical Concepts”, in Feigl, H., and Scriven, M. (eds.), Minnesota Studies in the Philosophy of Science: I. The Foundations of Science and the Concepts of Psychology and Psychoanalysis. Minneapolis: University of Minnesota Press: 38–76.Google Scholar

Clayton, D. D. (1968), Principles of Stellar Evolution and Nucleosynthesis. New York: McGraw-Hill.Google Scholar

Cox, J. P., and Guili, R. T. (1969), Principles of Stellar Structure. New York: Gordon and Breach.Google Scholar

Davis, R. Jr. (1978), “Results of the ³⁷Cl Experiment”, in Friedlander, G. (ed.), Proceedings, Informal Conference on Status and Future of Solar Neutrino Research, Brookhaven National Laboratory, Jan. 5–7, 1978, Vol. I: 1–54.Google Scholar

Davis, R. Jr. (1964), “Solar Neutrinos. II. Experimental”, Physical Review Letters 12: 303–305.CrossRefGoogle Scholar

Fowler, W. A. (1967), Nuclear Astrophysics. Philadelphia: American Philosophical Society.Google Scholar

Hempel, C. (1958), “The Theoretician's Dilemma”, in Feigl, H., and Maxwell, G. (eds.), Minnesota Studies in the Philosophy of Science: II. Concepts, Theories, and the Mind-Body Problem. Minneapolis: University of Minnesota Press: 37–98.Google Scholar

Kuchowicz, B. (1976), “Neutrinos from the Sun”, Reports on Progress in Physics 39: 291–343.CrossRefGoogle Scholar

Motz, L. (1970), Astrophysics and Stellar Structure. Toronto: Ginn.Google Scholar

Pontecorvo, B. (1946), “Inverse Beta Decay”, Canadian Report PD-205, reprinted in Reines, F., and Trimble, V. (eds.), Proceedings, Solar Neutrino Conference, Universify of California at Irvine and the Western White House, 25–26 February, 1972. Distributed in photocopy.Google Scholar

Quine, W. V. (1969), “Epistemology Naturalized”, in Quine, W. V., Ontological Relativity and Other Essays. New York: Columbia University Press: 69–90.10.7312/quin92204-004CrossRefGoogle Scholar

Reddish, V. C. (1974), The Physics of Stellar Interiors. Edinburgh: Edinburgh University Press.Google Scholar

Reeves, H. (1965), “Stellar Energy Sources”, in Aller, L. H., and McLaughlin, D. B. (eds.), Stellar Structure. Chicago: University of Chicago Press: 113–193.Google Scholar

Ruderman, M. (1969), “Astrophysical Neutrinos”, in Tayler, R. J., et al., Astrophysics. New York: Benjamin: 151–204.Google Scholar

Schwarzschild, M. (1958), Structure and Evolution of the Stars. Princeton: Princeton University Press.CrossRefGoogle Scholar

Sears, R. L. (1966), “Solar Models and Neutrino Fluxes”, in Stein, R. F., and Cameron, A. G. W. (eds.), Stellar Evolution. New York: Plenum Press: 245–249.Google Scholar

Shapere, D. (1982), “Reason, Reference, and the Quest for Knowledge”, Philosophy of Science 49: 1–23.CrossRefGoogle Scholar

Shapere, D. (1981), “The Scope and Limits of Scientific Change”, in Cohen, L. J., et al. (eds.), Logic, Methodology and Philosophy of Science VI. Amsterdam: North-Holland. Forthcoming.Google Scholar

Shaviv, G. (1971), “The Theory of Stellar Structure and the Solar Neutrino Flux”, in The Astrophysical Aspects of the Weak Interactions. Rome: Accademia Nazionale dei Lincei: 41–58.Google Scholar

Shklovskii, I. S. (1978), Stars: Their Birth, Life, and Death. San Francisco: Freeman.Google Scholar

Ünsold, A. (1977), The New Cosmos, Second Edition. New York: Springer-Verlag.Google Scholar

Weekes, T. (1969), High-Energy Astrophysics. London: Chapman and Hall.Google Scholar