Geometry and Chronometry in Philosophical PerspectiveU of Minnesota Press, 1968 - 399 σελίδες In this volume Professor Grunbaum substantially extends and comments upon his essay "Geometry, Chronometry, and Empiricism," which was first published in Volume III of the Minnesota Studies in the Philosophy of Science. Commenting on the essay when it first appeared J. J. C. Smart wrote in Mind (England): "In my opinion Adolf Grunbaum's paper ... supersedes nearly all that has been written on the logical status of physical geometry and chronometry." The full text of the essay is given here with the author's extension of it and his discussion of some of the critical comment it has evoked, particularly, a critique published by Hilary Putnam. Adolph Grunbaum is Andrew Mellon Professor of Philosophy at the University of Pittsburgh and the current president of the Philosophy of Science Association. |
Περιεχόμενα
3 | |
Chapter II GEOMETRY AND PHYSICS | 147 |
Chapter III REPLY TO HILARY PUTNAMS AN EXAMINATION OF GRÜNBAUMS PHILOSOPHY OF GEOMETRY | 195 |
Άλλες εκδόσεις - Προβολή όλων
Geometry and Chronometry in Philosophical Perspective Adolf Grünbaum Περιορισμένη προεπισκόπηση - 1968 |
Geometry and Chronometry in Philosophical Perspective Adolf Grunbaum Περιορισμένη προεπισκόπηση - 1968 |
Geometry and Chronometry in Philosophical Perspective Adolf Grunbaum Δεν υπάρχει διαθέσιμη προεπισκόπηση - 1968 |
Συχνά εμφανιζόμενοι όροι και φράσεις
acceleration alternative metrizability assertion causal claim clock coincidence behavior color conception congruence class congruence definition congruence relation continuum conventional conventionality of congruence customary congruence defined definition of congruence deformations denumerable depend differential forces disk Duhem Duhemian dx² dy² Eddington's Einstein empirical equal equation Euclidean geometry extrinsic fact factual falsifiability g₁ geodesics given gravitational gruence Grünbaum hence hypothesis inertial system intervals intrinsic metric length light ray logical Lorentz transformations mathematical matter measure meterstick metric geometry metric tensor metrical simultaneity ND-hypothesis Newton's Newtonian non-Euclidean geometry obtain philosophical physical geometry physical space Poincaré postulates Putnam reference system Reichenbach relation relativity of simultaneity respect Riemann's rigid Schlesinger Schlesinger's self-congruence semantical sense solid rods space-time spatial congruence specified statement stipulation temperature temporal congruence theoretical theory of relativity thermal thesis tion topological simultaneity trivial unique universal forces yield Zeno's paradox zero