An edition of The molecularization of the world picture, or the rise of the Universum Arausiacum (2009)

The molecularization of the world picture, or the rise of the Universum Arausiacum

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Last edited by MARC Bot
September 23, 2020 | History
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An edition of The molecularization of the world picture, or the rise of the Universum Arausiacum (2009)

The molecularization of the world picture, or the rise of the Universum Arausiacum

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This book describes in two volumes the emergence and further development of the concept of 'molecule' in the sciences and so against the background of Epicurus' neoatomism as voiced by Lucretius. 'Sciences' is here taken in the broad sense, that is: to comprise not only the exact sciences and the life sciences, but also mathematics and (natural) philosophy.

As it happened the molecular theory came up in the Netherlands. It was invented by the natural philosopher and medicinae doctor Isaac Beeckman (1588-1637). Beeckman, a close friend of René Descartes, developed a 'discrete' picture of the world, in which the molecular theory featured prominently, together with a taylor-made mathematics. At the end of the XVIIIth century the molecular theory had grown into molecularism, a real Theory of Everything. Indeed, both XIXth century physics and chemistry appear to be essentially molecular sciences.

The second volume addresses in the first chapters the development of biology and medicine and of crystallography and mineralogy during the XIXth century. In this period biology lived its emancipation as a life science sui generis, while crystallography branched off from mineralogy. A separate chapter deals with the rise of a uniform system of units, the so-called Système international des unités, with particular attention for the molecular aspects. Up until 1925-1940 the developments in the various domains are analyzed in detail. For the later period the course of events is only sketched in using 12 Nobel Prizes as beacons. The last chapter, then, concerns an epilog in which the book's theme is reconsidered from a systematic point of view on the basis of the principal novel insights. The second volume concludes with a bibliography and indexes of names and subjects. The main tenet of the book is that a new picture of the world has emerged, a picture that, in the spirit of Galileo and Huygens, was called after the House Orange.

Publish Date
Publisher
Groningen University Press
Language
English
Pages
1009

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Subjects
atoms, molecules, atomism, molecularism, molecularization, Atomism, Molecules, History
People
Epicurus, Lucretius, Beeckman, Stahl, Newton, Buffon, Laplace, Lavoisier, Schleiden-Schwann, Maxwell, Van der Waals, Van 't Hoff, Beijerinck, Boltzmann, Planck, Einstein
Times
Antiquity, Middle Ages, Renaissance, Early Modern, Modern, 2000

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Cover of: The molecularization of the world picture, or the rise of the Universum Arausiacum
The molecularization of the world picture, or the rise of the Universum Arausiacum
2009, Groningen University Press
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Book Details

Published in

Groningen, Netherlands

Table of Contents

Volume I
Preface. v
Introduction. xvii-xxxviii
1. Atomism; Antiquity, Middle-Ages, Renaissance Page 1
1.1. Introduction Page 1
1.2. Leucippus and Democritus; Archimedes Page 2
1.3. Epicurus (341-270 B.C.) Page 8
1.4. Epicurus' heirs: Philodemus, Lucretius, and Diogenes Page 13
1.5. Patristics and High Scholasticism Page 23
1.6. Girolamo Fracastoro: 'contagia' as disease vectors Page 26
1.7. Atomism in the tradition Page 29
2. The first molecular theory: Isaac Beeckman (1620) Page 33
2.1. Isaac Beeckman (1588-1637) Page 33
2.2. 'Homogenea physica' as molecules Page 40
2.3. Mathematics and physics in a 'discrete' world; the law of free fall Page 51
2.4. Physical homogenea as 'substantial individuals' Page 57
3. The rise of molecularism (XVIIth-XVIIth century) Page 61
3.1. Substantial individuals in the XVIIth century Page 61
3.2. Physics: Newton, Van Musschenbroek, Laplace Page 66
3.3. Chemistry: Stahl and Lavoisier Page 79
3.4. Biology: Van Leeuwenhoek, Buffon, Dutrochet Page 89
3.5. Close; crystallography Page 102
4. Physics in the XIXth century Page 109
4.1. The gaseous state; thermometry, pyrometry, and calorimetry Page 109
4.2. Gay-Lussac and Dalton; new laws Page 115
4.3. The theory of heat, from Carnot to Clausius Page 125
4.4. The kinetic theory of gases; Clausius and Buys Ballot Page 131
4.5. The equation of state according to Van der Waals Page 138
4.6. Statistical mechanics and quantum physics; Maxwell, Boltzmann, and Planck Page 153
4.7. Molecules quantitatively: Loschmidt, Rutherford, and Boltwood; N-Loschmidt Page 168
4.8. Jean Perrin: grains as molecules, N-Avogadro Page 173
4.9. Physics and philosophy; molecularism and positivism Page 178
4.10. Molecular physics 1800-1900; Maxwell, Lorentz, Einstein; Gibbs Page 188
5. Chemistry in the XIXth century Page 199
5.1. Solutions, mixtures, and compounds; combining laws Page 199
5.2. Dalton and Gay-Lussac; weight versus volume laws. Avogadro Page 204
5.3. Molecular electrochemical dualism; Berzelius Page 210
5.4. Relative atomic weights and/or equivalents; lacking coherence Page 220
5.5. From 'radicals' to 'types'; (equi)valence; Gerhardt, Kekulé Page 225
5.6. Physical stoichiometry; structure and additivity. Kopp Page 243
5.7. Chemistry as stereochemistry: Kekulé, Le Bel, Van 't Hoff, Werner Page 252
5.8. Tautomerism or desmotropy; Laar and Baeyer Page 265
5.9. Molecular chemistry 1800-1900; Karlsruhe 1860 Page 277
6. Biology and medicine in the XIXth century Page 297
6.1. The living organism and its parts; the emancipation of biology Page 297
6.2. Organic molecules and cells; Dutrochet, Schleiden, Schwann Page 307
6.3. From physiology to pathology; Virchow Page 316
6.4. The organism: uni- or pluricellular Page 326
6.4.1. The classification of living beings Page 326
6.4.2. Pasteur, Koch, Beijerinck; microbes, bacteria, viruses Page 330
6.5. Growth, reproduction, and heredity; from Mohl to Morgan Page 345
6.6. Molecular reign: Brown-Séquard, Eijkman, Ehrlich Page 364
6.7. The nature of life, 1800-1915; biological 'stoichiometry' Page 376
7. Crystallography and mineralogy in the XIXth century Page 391
7.1. The concept of 'individual' in natural history; mathematizations Page 391
7.2. Mitscherlich: isomorphism and polymorphism Page 398
7.3. The concept of 'symmetry'; Haüy and Weiss Page 407
7.4. Group theory and symmetry; from Jordan to Schoenflies Page 441
7.5. The status of 'points'; molecules and/or atoms Page 445
7.6. Röntgen's radiation and the breakthrough of lattice theory; Laue et al., Bragg and Bragg Page 456
7.7. Molecular lattices: the rule becomes the exception Page 469
Volume II
Contents i-x
8. The rise of the Système international; molecules (atoms) as gauges Page 481
8.1. Particles: number, dimensions, weight Page 481
8.2. Units: from Stevin and Snellius to Delambre and Méchain Page 488
8.3. The 'Convention du mètre' (1875-1900) and the 'Conférences générales [..]' Page 497
8.4. From CGS (1873) to SI (1960); Landolt-Börnstein and the Handbook [..] Page 513
8.5. From 'grammolecule' to 'mole'; Ostwald, Avogadro, and Loschmidt Page 520
8.6. N-Avogadro and the kilogram as unit mass; Silicon and its metrological potentials Page 527
8.7. Units, past and present; atomic and molecular measures Page 536
9. The molecular sciences in the XXth century Page 541
9.1. The XXth century; a first impression Page 541
9.2. Physics and chemistry; 1896-1925 Page 548
9.2.1. The atom; Thomson, Curie-Sklodowska, Rutherford Page 549
9.2.2. Atoms and molecules; Bohr, Lewis Page 569
9.2.3. 'Molekularstrahlen'; palpable statistics; Stern Page 583
9.3. Molecular physics since 1925 Page 587
9.4. Molecular chemistry since 1925 Page 612
9.5. Biology and medicine; 1915-1940 Page 646
9.6. The life sciences since 1940 Page 670
9.7. Close; crystallography as a bridge Page 699
10. Epilogue. The molecularization in a bird's eye view Page 709
10.1. Other markers, other perspectives Page 709
10.2. Historiography: variations upon a theme Page 724
10.3. The 'Universum Arausiacum' Page 738
Bibliography Page 739
Primary sources. Page 739
Secondary sources. Page 772
Acknowledgments Page 799
Experiments, general. Page 799
Illustrations. Page 801
Peter Debije and the Netherlands. Page 802
Index of names Page 805
Index of subjects Page 843
Honorary Committee of European and American Scholars Page 961-962

Classifications

Library of Congress
QD461 .K85 2009

The Physical Object

Format
Paperback (and hardcover)
Pagination
xxxvii, x, 962
Number of pages
1009
Dimensions
24 x 16 x 6 centimeters
Weight
1646 grams

ID Numbers

Open Library
OL25874373M
ISBN 13
9789081442817
LCCN
2010420400

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History

Download catalog record: RDF / JSON
September 23, 2020 Edited by MARC Bot import existing book
December 1, 2015 Edited by Henk Kubbinga Edited without comment.
December 1, 2015 Edited by Henk Kubbinga Added new cover
December 1, 2015 Edited by Henk Kubbinga Added new cover
November 30, 2015 Created by Henk Kubbinga Added new book.