The growth of mathematical knowledge

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Boston: Kluwer Academic Publishers (2000)
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Abstract

This book draws its inspiration from Hilbert, Wittgenstein, Cavaillès and Lakatos and is designed to reconfigure contemporary philosophy of mathematics by making the growth of knowledge rather than its foundations central to the study of mathematical rationality, and by analyzing the notion of growth in historical as well as logical terms. Not a mere compendium of opinions, it is organised in dialogical forms, with each philosophical thesis answered by one or more historical case studies designed to support, complicate or question it. The first part of the book examines the role of scientific theory and empirical fact in the growth of mathematical knowledge. The second examines the role of abstraction, analysis and axiomatization. The third raises the question of whether the growth of mathematical knowledge constitutes progress, and how progress may be understood. Readership: Students and scholars concerned with the history and philosophy of mathematics and the formal sciences.

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2010

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QA8.4.G76 2000

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0792361512   9780792361510

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Chapters

Knowledge of functions in the growth of mathematical knowledge.  (pages 1--15)Jaakko Hintikka
Huygens and the pendulum: From device to mathematical relation.  (pages 17--39)Michael S. Mahoney
An empiricist philosophy of mathematics and its implications for the history of mathematics.  (pages 41--57)Donald Gillies
The Mathematization of Chance in the Middle of the 17th Century.  (pages 59--75)Ivo Schneider
Mathematical Empiricism and the Mathematization of Chance: Comment on Gillies and Schneider.  (pages 77--80)Michael Liston
The partial unification of domains, hybrids, and the growth of mathematical knowledge.  (pages 81--91)Emily R. Grosholz
Penrose and platonism.  (pages 133--141)Mark Steiner
On the Mathematics of Spilt Milk.  (pages 143--152)Mark Wilson
The growth of mathematical knowledge: An open world view.  (pages 153--176)Carlo Cellucci
Epistemology, ontology and the continuum.  (pages 199--219)Carl J. Posy
Tacit knowledge and mathematical progress.  (pages 221--230)Herbert Breger
The Quadrature of Parabolic Segments 1635–1658: A Response to Herbert Breger.  (pages 231--256)Madeline M. Muntersbjorn
Mathematical Progress: Ariadne's Thread.  (pages 257--268)Michael Liston
Voir-Dire in the Case of Mathematical Progress.  (pages 269--280)Colin McLarty
The nature of progress in mathematics: the significance of analogy.  (pages 281--293)Hourya Benis-Sinaceur
Evpeaig anoyamq anooei£ iq.  (pages 289--295)Ebhrhard Knobloch
Hamilton-Jacobi methods and Weierstrassian field theory in the calculus of variations: A study in the interaction of mathematics and physics.  (pages 289--93)Craig Fraser
Analogy and the growth of mathematical knowledge.  (pages 295--314)Eberhard Knobloch
Evolution of the Modes of Systematization of Mathematical Knowledge.  (pages 315--329)Alexei Barabashev
Geometry: The first universal language of mathematics.  (pages 331--340)I. G. Bashmakova & G. S. Smirnova
Mathematical progress.  (pages 341--352)Penelope Maddy
Some Remarks on Mathematical Progress from a Structuralist's Perspective.  (pages 353--362)Michael D. Resnik
Scientific Progress and Changes in Hierarchies of Scientific Disciplines.  (pages 363--376)Volker Peckhaus
On the Progress of Mathematics.  (pages 377--386)Sergei Demidov
Attractors of Mathematical Progress—the Complex Dynamics of Mathematical Research.  (pages 387--406)Klaus Mainzer
On Some Determinants of Mathematical Progress.  (pages 407--416)Christian Thiel

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Emily Grosholz
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References found in this work

Scientific Progress and Changes in Hierarchies of Scientific Disciplines.Volker Peckhaus - 2000 - In Emily Grosholz & Herbert Breger (eds.), The growth of mathematical knowledge. Boston: Kluwer Academic Publishers. pp. 363--376.

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