Hermann von Helmholtz’s Mechanism: The Loss of Certainty

Hermann von Helmholtz’s Mechanism: The Loss of Certainty

Author: Gregor Schiemann

Publisher: Springer Science & Business Media

Published: 2008-12-11

Total Pages: 286

ISBN-13: 1402056303

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Focusing on Hermann von Helmholtz, this study addresses one of the nineteenth century’s most important German natural scientists. Among his most well-known contributions to science are the invention of the ophthalmoscope and grou- breaking work towards formulating the law of the conservation of energy. The volume of his work, reaching from medicine to physiology to physics and epis- mology, his impact on the development of the sciences far beyond German borders, and the contribution he made to the organization and popularization of research, all established Helmholtz’s prominence both in the academic world and in public cultural life. Helmholtz was also one of the last representatives of a conception of nature that strove to reduce all phenomena to matter in motion. In reaction to the increasingly insurmountable difficulties that program had in fulfilling its own standards for s- entific explanation, he developed elements of a modern understanding of science that have remained of fundamental importance to this day.


Hermann Von Helmholtz’s Mechanism: The Loss of Certainty

Hermann Von Helmholtz’s Mechanism: The Loss of Certainty

Author: Gregor Schiemann

Publisher:

Published: 2009

Total Pages: 304

ISBN-13:

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Two seemingly contradictory tendencies have accompanied the development of the natural sciences in the past 150 years. On the one hand, the natural sciences have been instrumental in effecting a thoroughgoing transformation of social structures and have made a permanent impact on the conceptual world of human beings. This historical period has, on the other hand, also brought to light the merely hypothetical validity of scientific knowledge. As late as the middle of the 19th century the truth-pathos in the natural sciences was still unbroken. Yet in the succeeding years these claims to certain knowledge underwent a fundamental crisis. For scientists today, of course, the fact that their knowledge can possess only relative validity is a matter of self-evidence. The present analysis investigates the early phase of this fundamental change in the concept of science through an examination of Hermann von Helmholtz's conception of science and his mechanistic interpretation of nature. Helmholtz (1821-1894) was one of the most important natural scientists in Germany. The development of this thought offers an impressive but, until now, relatively little considered report from the field of the experimental sciences chronicling the erosion of certainty.


The Helmholtz Curves

The Helmholtz Curves

Author: Henning Schmidgen

Publisher: Fordham Univ Press

Published: 2014-09-15

Total Pages: 216

ISBN-13: 0823261964

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This book reconstructs the emergence of the phenomenon of “lost time” by engaging with two of the most significant time experts of the nineteenth century: the German physiologist Hermann von Helmholtz and the French writer Marcel Proust. Its starting point is the archival discovery of curve images that Helmholtz produced in the context of pathbreaking experiments on the temporality of the nervous system in 1851. With a “frog drawing machine,” Helmholtz established the temporal gap between stimulus and response that has remained a core issue in debates between neuroscientists and philosophers. When naming the recorded phenomena, Helmholtz introduced the term temps perdu, or lost time. Proust had excellent contacts with the biomedical world of late-nineteenth-century Paris, and he was familiar with this term and physiological tracing technologies behind it. Drawing on the machine philosophy of Deleuze, Schmidgen highlights the resemblance between the machinic assemblages and rhizomatic networks within which Helmholtz and Proust pursued their respective projects.


Helmholtz and the Conservation of Energy

Helmholtz and the Conservation of Energy

Author: Kenneth L. Caneva

Publisher: MIT Press

Published: 2021-08-03

Total Pages: 759

ISBN-13: 0262045737

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An examination of the sources Helmholtz drew upon for his formulation of the conservation of energy and the impact of his work on nineteenth-century physics. In 1847, Herman Helmholtz, arguably the most important German physicist of the nineteenth century, published his formulation of what became known as the conservation of energy--unarguably the most important single development in physics of that century, transforming what had been a conglomeration of separate topics into a coherent field unified by the concept of energy. In Helmholtz and the Conservation of Energy, Kenneth Caneva offers a detailed account of Helmholtz's work on the subject, the sources that he drew upon, the varying responses to his work from scientists of the era, and the impact on physics as a discipline. Caneva describes the set of abiding concerns that prompted Helmholtz's work, including his rejection of the idea of a work-performing vital force, and investigates Helmholtz's relationship to both an older generation of physicists and an emerging community of reformist physiologists. He analyzes Helmholtz's indebtedness to Johannes Müller and Justus Liebig and discusses Helmholtz's tense and ambivalent relationship to the work of Robert Mayer, who had earlier proposed the uncreatability, indestructibility, and transformability of "force." Caneva examines Helmholtz's continued engagement with the subject, his role in the acceptance of the conservation of energy as the central principle of physics, and the eventual incorporation of the principle in textbooks as established science.


A Final Story

A Final Story

Author: Nasser Zakariya

Publisher: University of Chicago Press

Published: 2017-11-14

Total Pages: 563

ISBN-13: 022647612X

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Towards a Final Story is the first history of the modern scientific epic. These epic stories pull together our knowledge of the universe, uniting material and biological origins, from beginning to end. The authors of these epics--among them Carl Sagan, E.O. Wilson, and Steven Weinberg--saw their task as providing an integrated schema that would not only bring together but also go beyond the particular scientific results and disciplines available as they wrote their histories. Nasser Zakariya traces how such epic stories could achieve what they claimed, how they inhabit culture and politics, and how they arrived at the present moment from a period in the previous century when inquiries into ultimate origins were regarded by many as unscientific and unanswerable. These prominent, popular historical narratives of science are important forms of knowledge in their own right. They expose what science means in the wider culture and at the same time focus attention on the near paradoxical nature of a universal history narrated by humanity for humanity.


Mechanistic Explanations in Physics and Beyond

Mechanistic Explanations in Physics and Beyond

Author: Brigitte Falkenburg

Publisher: Springer Nature

Published: 2019-08-28

Total Pages: 220

ISBN-13: 3030107078

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This volume offers a broad, philosophical discussion on mechanical explanations. Coverage ranges from historical approaches and general questions to physics and higher-level sciences . The contributors also consider the topics of complexity, emergence, and reduction. Mechanistic explanations detail how certain properties of a whole stem from the causal activities of its parts. This kind of explanation is in particular employed in explanatory models of the behavior of complex systems. Often used in biology and neuroscience, mechanistic explanation models have been often overlooked in the philosophy of physics. The authors correct this surprising neglect. They trace these models back to their origins in physics. The papers present a comprehensive historical, methodological, and problem-oriented investigation. The contributors also investigate the conditions for using models of mechanistic explanations in physics. The last papers make the bridge from physics to economics, the theory of complex systems and computer science . This book will appeal to graduate students and researchers with an interest in the philosophy of science, scientific explanation, complex systems, models of explanation in physics higher level sciences, and causal mechanisms in science.


Reading between the lines – Leo Strauss and the history of early modern philosophy

Reading between the lines – Leo Strauss and the history of early modern philosophy

Author: Winfried Schröder

Publisher: Walter de Gruyter GmbH & Co KG

Published: 2015-11-13

Total Pages: 232

ISBN-13: 3110424290

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Since its publication in 1952, Leo Strauss's Persecution and the Art of Writing has stirred considerable controversy, particularly among historians concerned with early modern philosophy. On the one hand, several scholars share his view that it would be inadequate to generally take at face value the explicit message of texts which were composed in an era in which severe sanctions were imposed on those who entertained deviating views. ‘Reading between the lines’ therefore seems to be the appropriate hermeneutical approach. On the other hand, the risks of such an interpretative maxim are more than obvious, as it might come up to an unlimited license to ascribe heterodox doctrines to early modern philosophers whose manifest teachings were in harmony with the orthodox positions of their time. The conributions to this volume both address these methodological issues and discuss paradigmatic cases of authors who might indeed be candidates for a Straussian ‘reading between the lines’: Hobbes, Spinoza, and Bayle.


Space, Number, and Geometry from Helmholtz to Cassirer

Space, Number, and Geometry from Helmholtz to Cassirer

Author: Francesca Biagioli

Publisher: Springer

Published: 2016-08-22

Total Pages: 258

ISBN-13: 3319317792

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This book offers a reconstruction of the debate on non-Euclidean geometry in neo-Kantianism between the second half of the nineteenth century and the first decades of the twentieth century. Kant famously characterized space and time as a priori forms of intuitions, which lie at the foundation of mathematical knowledge. The success of his philosophical account of space was due not least to the fact that Euclidean geometry was widely considered to be a model of certainty at his time. However, such later scientific developments as non-Euclidean geometries and Einstein’s general theory of relativity called into question the certainty of Euclidean geometry and posed the problem of reconsidering space as an open question for empirical research. The transformation of the concept of space from a source of knowledge to an object of research can be traced back to a tradition, which includes such mathematicians as Carl Friedrich Gauss, Bernhard Riemann, Richard Dedekind, Felix Klein, and Henri Poincaré, and which finds one of its clearest expressions in Hermann von Helmholtz’s epistemological works. Although Helmholtz formulated compelling objections to Kant, the author reconsiders different strategies for a philosophical account of the same transformation from a neo-Kantian perspective, and especially Hermann Cohen’s account of the aprioricity of mathematics in terms of applicability and Ernst Cassirer’s reformulation of the a priori of space in terms of a system of hypotheses. This book is ideal for students, scholars and researchers who wish to broaden their knowledge of non-Euclidean geometry or neo-Kantianism.


Physics and Necessity

Physics and Necessity

Author: Olivier Darrigol

Publisher: OUP Oxford

Published: 2014-05-22

Total Pages: 417

ISBN-13: 0191021938

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Can we prove the necessity of our best physical theories by rational means, without appeal to experience? This book recounts a few ingenious attempts to derive physical theories by reason only, beginning with Descartes' geometric construction of the world, and finishing with recent derivations of quantum mechanics from natural axioms. Deductions based on theological, metaphysical, or transcendental arguments are worth remembering for the ways they motivated and structured physical theory, even though we would now criticize their excessive confidence in the power of the mind. Other deductions more modestly relied on criteria for the comprehensibility of nature, including forms of measurability, causality, homogeneity, and correspondence. The central thesis of this book is that such criteria, when properly applied to idealized systems, effectively determine some of our most important theories as well as the mathematical character of the laws of physics. The relevant arguments are not purely rational, because only experience can tell us to which extent nature is comprehensible in a given way. Nor do they block the possibility of ever more varied forms of comprehensibility. They nonetheless suggest the inevitability of much of our theoretical physics.


Mechanisms in Science

Mechanisms in Science

Author: Stavros Ioannidis

Publisher: Cambridge University Press

Published: 2022-06-23

Total Pages: 291

ISBN-13: 1009022431

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In recent years what has come to be called the 'New Mechanism' has emerged as a framework for thinking about the philosophical assumptions underlying many areas of science, especially in sciences such as biology, neuroscience, and psychology. This book offers a fresh look at the role of mechanisms, by situating novel analyses of central philosophical issues related to mechanisms within a rich historical perspective of the concept of mechanism as well as detailed case studies of biological mechanisms (such as apoptosis). It develops a new position, Methodological Mechanism, according to which mechanisms are to be viewed as causal pathways that are theoretically described and are underpinned by networks of difference-making relations. In contrast to metaphysically inflated accounts, this study characterises mechanism as a concept-in-use in science that is deflationary and metaphysically neutral, but still methodologically useful and central to scientific practice.