Results for 'Laszlo E. Szabo'

(not author) ( search as author name )
1000+ found
Order:
  1.  66
    A Local Hidden Variable Theory for the GHZ Experiment.Laszlo E. Szabo & Arthur Fine - 2002 - Physics Letters A 295:229–240.
    A recent analysis by de Barros and Suppes of experimentally realizable GHZ correlations supports the conclusion that these correlations cannot be explained by introducing local hidden variables. We show, nevertheless, that their analysis does not exclude local hidden variable models in which the inefficiency in the experiment is an effect not only of random errors in the detector equipment, but is also the manifestation of a pre-set, hidden property of the particles ("prism models"). Indeed, we present an explicit prism model (...)
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark   9 citations  
  2.  51
    Branching Space-Time Analysis of the GHZ Theorem.Nuel Belnap & László E. Szabó - 1996 - Foundations of Physics 26 (8):989-1002.
    Greenberger. Horne. Shimony, and Zeilinger gave a new version of the Bell theorem without using inequalities (probabilities). Mermin summarized it concisely; but Bohm and Hiley criticized Mermin's proof from contextualists' point of view. Using the branching space-time language, in this paper a proof will be given that is free of these difficulties. At the same time we will also clarify the limits of the validity of the theorem when it is taken as a proof that quantum mechanics is not compatible (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   37 citations  
  3.  39
    Common Causes Love to Hide: Gábor Hofer-Szabó, Miklós Rédei and László E. Szabó: The Principle of the Common Cause. Cambridge: Cambridge University Press, 2013, Vii+202pp, $99.00 HB. [REVIEW]Chrysovalantis Stergiou - 2015 - Metascience 24 (2):247-251.
    Anything other than paraphrasing the well-known Heraclitean aphorism would not be more appropriate to portray the crux of the contribution of the three philosophers of the Budapest School, Gábor Hofer-Szabó, Miklós Rédei and Lázló E. Szabó, in the ongoing discussion of the principle of the common cause . Indeed, ‘common causes love to hide’ and for that reason critics and aspirant falsifiers of PCC find correlations which, at a first level of analysis, might lack a common cause explanation. But as (...)
    Direct download (2 more)  
     
    Export citation  
     
    Bookmark  
  4.  90
    Empirical Foundation of Space and Time.Laszlo E. Szabo - 2009 - In Mauricio Suarez, Mauro Dorato & Miklos Redei (eds.), EPSA Philosophical Issues in the Sciences · Launch of the European Philosophy of Science Association. Springer. pp. 251--266.
    I will sketch a possible way of empirical/operational definition of space and time tags of physical events, without logical or operational circularities and with a minimal number of conventional elements. As it turns out, the task is not trivial; and the analysis of the problem leads to a few surprising conclusions.
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   8 citations  
  5.  36
    Mathematical Facts in a Physicalist Ontology.Laszlo E. Szabo - unknown
    If physicalism is true, everything is physical. In other words, everything supervenes on, or is necessitated by, the physical. Accordingly, if there are logical/mathematical facts, they must be necessitated by the physical facts of the world. The aim of this paper is to clarify what logical/mathematical facts actually are and how these facts can be accommodated in a purely physical world.
    Direct download (6 more)  
     
    Export citation  
     
    Bookmark   5 citations  
  6. On Fine's Resolution of the EPR-Bell Problem.László E. Szabó - 2000 - Foundations of Physics 30 (11):1891-1909.
    The aim of this paper is to provide an introduction to Fine's interpretation of quantum mechanics and to show how it can solve the EPR-Bell problem. In the real spin-correlation experiments the detection/emission inefficiency is usually ascribed to independent random detection errors, and treated by the “enhancement hypothesis.” In Fine's interpretation the detection inefficiency is an effect not only of the random errors in the analyzer + detector equipment, but is also the manifestation of a pre-settled (hidden) property of the (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   8 citations  
  7. The Einstein-Podolsky-Rosen Argument and the Bell Inequalities.László E. Szabó - 2008 - Internet Encyclopedia of Philosophy.
    In 1935, Einstein, Podolsky, and Rosen (EPR) published an important paper in which they claimed that the whole formalism of quantum mechanics together with what they called a “Reality Criterion” imply that quantum mechanics cannot be complete. That is, there must exist some elements of reality that are not described by quantum mechanics. They concluded that there must be a more complete description of physical reality involving some hidden variables that can characterize the state of affairs in the world in (...)
     
    Export citation  
     
    Bookmark   1 citation  
  8. The Einstein-Podolsky-Rosen Argument and the Bell Inequalities.László E. Szabó - 2007 - Internet Encyclopedia of Philosophy.
    In 1935, Einstein, Podolsky, and Rosen (EPR) published an important paper in which they claimed that the whole formalism of quantum mechanics together with what they called a “Reality Criterion” imply that quantum mechanics cannot be complete. That is, there must exist some elements of reality that are not described by quantum mechanics. They concluded that there must be a more complete description of physical reality involving some hidden variables that can characterize the state of affairs in the world in (...)
    Direct download (2 more)  
     
    Export citation  
     
    Bookmark   5 citations  
  9.  72
    On the Meaning of Lorentz Covariance.László E. Szabó - 2003 - Foundations Of Physics Letters 17:479-496.
    In classical mechanics, the Galilean covariance and the principle of relativity are completely equivalent and hold for all possible dynamical processes. In relativistic physics, on the contrary, the situation is much more complex: It will be shown that Lorentz covariance and the principle of relativity are not equivalent. The reason is that the principle of relativity actually holds only for the equilibrium quantities characterizing the equilibrium state of dissipative systems. In the light of this fact it will be argued that (...)
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark   7 citations  
  10.  13
    Intrinsic, Extrinsic, and the Constitutive A Priori.László E. Szabó - 2020 - Foundations of Physics 50 (6):555-567.
    On the basis of what I call physico-formalist philosophy of mathematics, I will develop an amended account of the Kantian–Reichenbachian conception of constitutive a priori. It will be shown that the features attributed to a real object are not possessed by the object as a “thing-in-itself”; they require a physical theory by means of which these features are constituted. It will be seen that the existence of such a physical theory implies that a physical object can possess a property only (...)
    Direct download (2 more)  
    Translate
     
     
    Export citation  
     
    Bookmark  
  11.  13
    Intrinsic, Extrinsic, and the Constitutive A Priori.László E. Szabó - 2019 - Foundations of Physics:1-13.
    On the basis of what I call physico-formalist philosophy of mathematics, I will develop an amended account of the Kantian–Reichenbachian conception of constitutive a priori. It will be shown that the features attributed to a real object are not possessed by the object as a “thing-in-itself”; they require a physical theory by means of which these features are constituted. It will be seen that the existence of such a physical theory implies that a physical object can possess a property only (...)
    No categories
    Direct download (7 more)  
     
    Export citation  
     
    Bookmark   1 citation  
  12. Objective Probability-Like Things with and Without Objective Indeterminism.László E. Szabó - 2007 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 38 (3):626-634.
    I shall argue that there is no such property of an event as its “probability.” This is why standard interpretations cannot give a sound definition in empirical terms of what “probability” is, and this is why empirical sciences like physics can manage without such a definition. “Probability” is a collective term, the meaning of which varies from context to context: it means different — dimensionless [0, 1]-valued — physical quantities characterising the different particular situations. In other words, probability is a (...)
    Direct download (9 more)  
     
    Export citation  
     
    Bookmark   3 citations  
  13. Formal Statement of the Special Principle of Relativity.Marton Gomori & Laszlo E. Szabo - 2015 - Synthese 192 (7):1-24.
    While there is a longstanding discussion about the interpretation of the extended, general principle of relativity, there seems to be a consensus that the special principle of relativity is absolutely clear and unproblematic. However, a closer look at the literature on relativistic physics reveals a more confusing picture. There is a huge variety of, sometimes metaphoric, formulations of the relativity principle, and there are different, sometimes controversial, views on its actual content. The aim of this paper is to develop a (...)
    Direct download (9 more)  
     
    Export citation  
     
    Bookmark   4 citations  
  14.  56
    How to Move an Electromagnetic Field?László E. Szabó & Márton Gömöri - unknown
    As a first principle, it is the basic assumption of the standard relativistic formulation of classical electrodynamics (ED) that the physical laws describing the electromagnetic phenomena satisfy the relativity principle (RP). According to the standard view, this assumption is absolutely unproblematic, and its correctness is well confirmed, at least in a hypothetico-deductive sense, by means of the empirical confirmation of the consequences derived from it. In this paper, we will challenge this customary view as being somewhat simplistic. In the majority (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   2 citations  
  15.  28
    Operational Understanding of the Covariance of Classical Electrodynamics.Marton Gomori & Laszlo E. Szabo - unknown
    It is common in the literature on classical electrodynamics and relativity theory that the transformation rules for the basic electrodynamical quantities are derived from the pre-assumption that the equations of electrodynamics are covariant against these---unknown---transformation rules. There are several problems to be raised concerning these derivations. This is, however, not our main concern in this paper. Even if these derivations were completely correct, they leave open the following fundamental question: Are the so-obtained transformation rules indeed identical with the true transformation (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   6 citations  
  16.  8
    Meaning, Truth, and Physics.Laszlo E. Szabo - unknown
    A physical theory is a partially interpreted axiomatic formal system, where L is a formal language with some logical, mathematical and physical axioms, and with some derivation rules, and the semantics S is a relationship between the formulas of L and some states of affairs in the physical world. In our ordinary discourse, the formal system L is regarded as an abstract object or structure, the semantics S as something which involves the mental/conceptual realm. This view is of course incompatible (...)
    No categories
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   1 citation  
  17.  30
    Lorentz's Theory and Special Relativity Are Completely Identical.László E. Szabó - 2003
    Withdrawn by the author! The main content of this paper has been moved into "Szabó, László E., Does special relativity theory tell us anything new about space and time? (ID Code:1321)".
    Direct download (2 more)  
     
    Export citation  
     
    Bookmark  
  18.  17
    Physicalism Without the Idols of Mathematics.Laszlo E. Szabo - unknown
    On the basis of a coherently applied physicalist ontology, I will argue that there is nothing conceptual in logic and mathematics. What we usually call “mathematical concepts”—from the most exotic ones to the most “evident” ones—are just names tagged to various elements of mathematical formalism. In fact they have nothing to do with concepts, as they have nothing to do with the actual things; they can be completely ignored by both philosophy and physics.
    No categories
    Direct download (4 more)  
     
    Export citation  
     
    Bookmark  
  19. Lorentzian Theories Vs. Einsteinian Special Relativity - a Logico-Empiricist Reconstruction.Laszlo E. Szabo - 2010 - In A. Maté, M. Rédei & F. Stadler (eds.), Der Wiener Kreis in Ungarn: the Vienna Circle in Hungary. Veröffentlichungen des Instituts Wiener Kreis (16). Springer.
    It is widely believed that the principal difference between Einstein's special relativity and its contemporary rival Lorentz-type theories was that while the Lorentz-type theories were also capable of “explaining away” the null result of the Michelson-Morley experiment and other experimental findings by means of the distortions of moving measuring-rods and moving clocks, special relativity revealed more fundamental new facts about the geometry of space-time behind these phenomena. I shall argue that special relativity tells us nothing new about the geometry of (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   1 citation  
  20.  84
    How Can Physics Account for Mathematical Truth?Laszlo E. Szabo - unknown
    If physicalism is true, everything is physical. In other words, everything supervenes on, or is necessitated by, the physical. Accordingly, if there are logical/mathematical facts, they must be necessitated by the physical facts of the world. In this paper, I will sketch the first steps of a physicalist philosophy of mathematics; that is, how physicalism can account for logical and mathematical facts. We will proceed as follows. First we will clarify what logical/mathematical facts actually are. Then, we will discuss how (...)
    Direct download (4 more)  
     
    Export citation  
     
    Bookmark   1 citation  
  21.  58
    What Remains of Probability?Laszlo E. Szabo - 2010 - In F. Stadler (ed.), The Present Situation in the Philosophy of Science. Springer. pp. 373--379.
    This paper offers some reflections on the concepts of objective and subjective probability and Lewis' Principal Principle.
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark  
  22. Does Special Relativity Theory Tell Us Anything New About Space and Time?László E. Szabó - 2003
    It will be shown that, in comparison with the pre-relativistic Galileo-invariant conceptions, special relativity tells us nothing new about the geometry of spacetime. It simply calls something else "spacetime", and this something else has different properties. All statements of special relativity about those features of reality that correspond to the original meaning of the terms "space" and "time" are identical with the corresponding traditional pre-relativistic statements. It will be also argued that special relativity and Lorentz theory are completely identical in (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   1 citation  
  23.  12
    On Fine's Interpretation of Quantum Mechanics: GHZ Experiment.László E. Szabó - 2002 - In T. Placek & J. Butterfield (eds.), Non-Locality and Modality. Kluwer Academic Publishers. pp. 153--161.
  24. Is the Relativity Principle Consistent with Classical Electrodynamics? Towards a Logico-Empiricist Reconstruction of a Physical Theory.Marton Gomori & Laszlo E. Szabo - unknown
    It is common in the literature on classical electrodynamics and relativity theory that the transformation rules for the basic electrodynamical quantities are derived from the hypothesis that the relativity principle applies to Maxwell's electrodynamics. As it will turn out from our analysis, these derivations raise several problems, and certain steps are logically questionable. This is, however, not our main concern in this paper. Even if these derivations were completely correct, they leave open the following questions: Is the RP a true (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark  
  25.  36
    On the Persistence of the Electromagnetic Field.Márton Gömöri & László E. Szabó - 2019 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 50 (1):43-61.
    According to the standard realistic interpretation of classical electrodynamics, the electromagnetic field is conceived as a real physical entity existing in space and time. The problem we address in this paper is how to understand this spatiotemporal existence, that is, how to describe the persistence of a field-like physical entity like electromagnetic field. First, we provide a formal description of the notion of persistence: we derive an “equation of persistence” constituting a necessary condition that the spatiotemporal distributions of the fundamental (...)
    Direct download (7 more)  
     
    Export citation  
     
    Bookmark  
  26. Common‐Causes Are Not Common Common‐Causes.Gábor Hofer-Szabó, Miklós Rédei & László E. Szabó - 2002 - Philosophy of Science 69 (4):623-636.
    A condition is formulated in terms of the probabilities of two pairs of correlated events in a classical probability space which is necessary for the two correlations to have a single (Reichenbachian) common-cause and it is shown that there exists pairs of correlated events probabilities of which violate the necessary condition. It is concluded that different correlations do not in general have a common common-cause. It is also shown that this conclusion remains valid even if one weakens slightly Reichenbach's definition (...)
    Direct download (10 more)  
     
    Export citation  
     
    Bookmark   18 citations  
  27.  17
    On the Formal Statement of the Special Principle of Relativity.Marton Gomori & Laszlo E. Szabo - unknown
    The aim of the paper is to develop a proper mathematical formalism which can help to clarify the necessary conceptual plugins to the special principle of relativity and leads to a deeper understanding of the principle in its widest generality.
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark  
  28.  34
    Towards a Natural Language Semantics Without Functors and Operands.Miklós Erdélyi-Szabó, László Kálmán & Agi Kurucz - 2008 - Journal of Logic, Language and Information 17 (1):1-17.
    The paper sets out to offer an alternative to the function/argument approach to the most essential aspects of natural language meanings. That is, we question the assumption that semantic completeness (of, e.g., propositions) or incompleteness (of, e.g., predicates) exactly replicate the corresponding grammatical concepts (of, e.g., sentences and verbs, respectively). We argue that even if one gives up this assumption, it is still possible to keep the compositionality of the semantic interpretation of simple predicate/argument structures. In our opinion, compositionality presupposes (...)
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark  
  29.  38
    M. E. Szabo. Biographical Sketch. The Collected Papers of Gerhard Gentzen, Herausgegeben von M. E. Szabo, Studies in Logic and the Foundations of Mathematics, North-Holland Publishing Company, Amsterdam Und London1969, S. Vii–Viii. - M. E. Szabo. Introduction. The Collected Papers of Gerhard Gentzen, Herausgegeben von M. E. Szabo, Studies in Logic and the Foundations of Mathematics, North-Holland Publishing Company, Amsterdam Und London1969, S. 1–28. - Gerhard Gentzen. On the Existence of Independent Axiom Systems for Infinite Sentence Systems. Englische Übersetzung von 4427. The Collected Papers of Gerhard Gentzen, Herausgegeben von M. E. Szabo, Studies in Logic and the Foundations of Mathematics, North-Holland Publishing Company, Amsterdam Und London1969, S. 29–52. - Gerhard Gentzen. On the Relation Between Intuitionist and Classical Arithmetic. Englische Übersetzung des Über Das Verhältnis Zwischen Intuitionistischer Und Klassischer Arithmetik . The Collected Papers of Gerhard Gentz. [REVIEW]K. Schütte - 1972 - Journal of Symbolic Logic 37 (4):752-753.
  30.  14
    Review: M. E. Szabo, Algebra of Proofs. [REVIEW]G. E. Minc - 1982 - Journal of Symbolic Logic 47 (4):904-907.
    Direct download (2 more)  
     
    Export citation  
     
    Bookmark  
  31. A General Systems Model of the Evolution of Science.E. Laszlo - 1972 - Scientia 66:379.
    No categories
     
    Export citation  
     
    Bookmark   5 citations  
  32.  15
    Investigations Into Logical Deduction.Gerhard Gentzen, M. E. Szabo & Paul Bernays - 1970 - Journal of Symbolic Logic 35 (1):144-145.
    Direct download  
     
    Export citation  
     
    Bookmark   37 citations  
  33.  30
    The Emergence of Integrative Concepts in Contemporary Science.E. Laszlo & H. Margenau - 1972 - Philosophy of Science 39 (2):252-259.
  34. Champ des fonctions d'un sub-système instable.E. Laszlo - 1970 - Scientia 64 (5):29.
    No categories
    Translate
     
     
    Export citation  
     
    Bookmark  
  35. Individualism, Collectivism, and Political Power.E. Laszlo - 1963
    No categories
     
    Export citation  
     
    Bookmark  
  36. Range of Functions of an Unstable Sub-System.E. Laszlo - 1970 - Scientia 64 (5):53.
    No categories
    Translate
     
     
    Export citation  
     
    Bookmark  
  37.  62
    On the Foundations of Geometry. Tr. By M.E. Szabo.Gottlob Frege - 1960 - Philosophical Review 69 (1):3-17.
  38.  8
    “On the Plausibility of Nonstandard Proofs in Analysis”.M. E. Szabo E. J. Farkas - 1984 - Dialectica 38 (4):297-310.
    SummaryWe present a systematic discussion of the structural and conceptual simplifications of proofs of standard theorems afforded by nonstandard methods and examine to what extent the resulting nonstandard proofs satisfy the informal criterion of “plausibility”. We introduce the concept of a “standard detour” and show that all nonstandard proofs considered avoid such detours. Among the proofs examined are proofs of the Intermediate Value Theorem, the Riemann Integration Theorem, the Spectral Theorem for compact Hermitian operators, and the Arzela‐Ascoli Theorem.RésuméNous discutons systématiquement (...)
    Direct download  
     
    Export citation  
     
    Bookmark  
  39.  13
    The Principle of the Common Cause.Miklós Redei, Gabor Hofer-Szabo & Laszlo Szabo - 2013 - Cambridge, U.K: Cambridge University Press.
    The common cause principle says that every correlation is either due to a direct causal effect linking the correlated entities or is brought about by a third factor, a so-called common cause. The principle is of central importance in the philosophy of science, especially in causal explanation, causal modeling and in the foundations of quantum physics. Written for philosophers of science, physicists and statisticians, this book contributes to the debate over the validity of the common cause principle, by proving results (...)
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark   28 citations  
  40.  22
    Book Review:The Collected Papers of Gerhard Gentzen M. E. Szabo[REVIEW]J. van Heijenoort - 1972 - Philosophy of Science 39 (1):91-.
  41.  15
    Gerhard Gentzen. Investigations Into Logical Deduction. English Translation of 4422 by M. E. Szabo. American Philosophical Quarterly, Vol. 1 , Pp. 288–306, and Vol. 2 , Pp. 204–218. - Paul Bernays. Introduction.Therein, Vol. 1, P. 288. [REVIEW]John Riser - 1970 - Journal of Symbolic Logic 35 (1):144-145.
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark  
  42.  11
    Review: Hans Georg Steiner, Frege Und Die Grundlagen der Geometrie; G. Frege, M. E. Szabo, E. D. Klemke, On the Foundations of Geometry. [REVIEW]Michael D. Resnik - 1971 - Journal of Symbolic Logic 36 (1):155-155.
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark  
  43.  28
    Szabo M. E.. Algebra of Proofs. Studies in Logic and the Foundations of Mathematics, Vol. 88. North-Holland Publishing Company, Amsterdam, New York, and Oxford, 1978, Xii + 297 Pp. [REVIEW]G. E. Minc - 1982 - Journal of Symbolic Logic 47 (4):904-907.
    Direct download (3 more)  
     
    Export citation  
     
    Bookmark  
  44.  36
    Critical Reflections on Quantum Probability Theory.László Szabó - 2001 - Vienna Circle Institute Yearbook 8:201-219.
    The story of quantum probability theory and quantum logic begins with von Neumann’s recognition1, that quantum mechanics can be regarded as a kind of “probability theory”, if the subspace lattice L of the system’s Hilbert space H plays the role of event algebra and the ‘tr’-s play the role of probability distributions over these events. This idea had been completed in the Gleason theorem 2.
    Direct download  
     
    Export citation  
     
    Bookmark   10 citations  
  45. Formal Systems as Physical Objects: A Physicalist Account of Mathematical Truth.E. Szabo´ La´Szlo´ - 2003 - International Studies in the Philosophy of Science 17 (2):117-125.
    This article is a brief formulation of a radical thesis. We start with the formalist doctrine that mathematical objects have no meanings; we have marks and rules governing how these marks can be combined. That's all. Then I go further by arguing that the signs of a formal system of mathematics should be considered as physical objects, and the formal operations as physical processes. The rules of the formal operations are or can be expressed in terms of the laws of (...)
    Direct download (5 more)  
     
    Export citation  
     
    Bookmark   4 citations  
  46.  72
    A Physicalist Account of Mathematical Truth.László Szabó - manuscript
    Realists, Platonists and intuitionists jointly believe that mathematical concepts and propositions have meanings, and when we formalize the language of mathematics, these meanings are meant to be reflected in a more precise and more concise form. According to the formalist understanding of mathematics (at least, according to the radical version of formalism I am proposing here) the truth, on the contrary, is that a mathematical object has no meaning; we have marks and rules governing how these marks can be combined. (...)
    Direct download  
    Translate
     
     
    Export citation  
     
    Bookmark  
  47. The American Society and the »End of History«.László Szabó - 1997 - In Wilhelm Raimund Beyer, Andreas Arndt, Myriam Gerhard & Jure Zovko (eds.), 1996. De Gruyter. pp. 57-59.
    No categories
    Direct download  
     
    Export citation  
     
    Bookmark  
  48.  11
    Quantum Measurement: On This Side of Paradox.László Szabó - 1999 - Vienna Circle Institute Yearbook 7:337-345.
    “In an earlier era of ‘natural philosophy’, physics and philosophy of physics were quite inseparably intertwined, but in the modern age of proliferating specialization, fruitful communication across the disciplines has become the exception rather than rule. We would like to think that the workshop1 and this volume are symptomatic of an ongoing process of reunification, one which can pave the way toward exceptional progress in this fundamental and highly challenging area, and others as well” — the editors Richard A. Healey (...)
    Direct download  
     
    Export citation  
     
    Bookmark  
  49.  16
    A Categorical Equivalence of Proofs.Manfred E. Szabo - 1974 - Notre Dame Journal of Formal Logic 15 (2):177-191.
  50.  4
    Der kosmische Übermensch. Zu Nietzsches Wirkung auf Rudolf Pannwitz.László V. Szabó - 2011 - Nietzscheforschung 18 (1):245-264.
    No categories
    Direct download  
    Translate
     
     
    Export citation  
     
    Bookmark  
1 — 50 / 1000