Between the Mountain, the Meadow, the Calm, and the Storm

IF 0.7 3区 哲学 Q2 HISTORY & PHILOSOPHY OF SCIENCE
Katy Duncan
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引用次数: 0

Abstract

This article explores the overlooked history of atmospheric electricity in the last third of the nineteenth century, delineating the work of Austrian physicist Franz Exner and German schoolteachers Julius Elster and Hans Geitel, and identifying the consequences of their work for twentieth-century physics. Since the earliest days of electrical science, the constant electrification of the atmosphere had been a persistent puzzle, with histories by historians and physicists alike typically focusing on what came after the discovery of gaseous ions in the atmosphere in 1899: cosmic rays, radioactivity, particle physics, and quantum phenomena. I argue that Exner and Elster and Geitel’s creative work in atmospheric electricity before 1899 provided the essential conditions for these twentieth-century discoveries. Their divergent theories, experiments, instruments, and environments, developed to understand the origins of the atmosphere’s electrification, provided a setting for new ideas about charge, determinism, and measurement to arise. This paper expands on the existing scholarship that has pointed to the fruitful interactions between physics and meteorology in British contexts in this period. In disentangling Exner’s and Elster and Geitel’s differing views on geographical and meteorological conditions I offer a new perspective on the recent vertical turn in the history of science. The paper concludes by suggesting that while the ionic revolution of 1899 was foundational for much of twentieth-century physics, it constituted a significant theoretical undoing for atmospheric electricians, leaving the field with even less understanding of the atmosphere’s electrification than before.
在山,草地,平静和风暴之间
这篇文章探讨了十九世纪最后三分之一被忽视的大气电的历史,描绘了奥地利物理学家Franz Exner和德国教师Julius Elster和Hans Geitel的工作,并确定了他们的工作对二十世纪物理学的影响。自电学早期以来,大气的持续带电一直是一个谜,历史学家和物理学家都把历史集中在1899年发现大气中的气体离子之后的事情上:宇宙射线、放射性、粒子物理和量子现象。我认为埃克斯纳、埃尔斯特和盖特尔在1899年之前在大气电方面的创造性工作为这些20世纪的发现提供了必要的条件。他们不同的理论、实验、仪器和环境,为理解大气电气化的起源而发展起来,为关于电荷、决定论和测量的新思想的出现提供了一个背景。这篇论文扩展了现有的学术,指出了这一时期英国背景下物理学和气象学之间富有成效的相互作用。在理清埃克斯纳、埃尔斯特和盖特尔对地理和气象条件的不同看法的过程中,我为科学史上最近的垂直转向提供了一个新的视角。这篇论文的结论是,尽管1899年的离子革命是20世纪物理学的基础,但它对大气电学家来说是一个重大的理论毁灭,使该领域对大气电气化的理解比以前更少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Historical Studies in the Natural Sciences
Historical Studies in the Natural Sciences 社会科学-科学史与科学哲学
CiteScore
1.00
自引率
0.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: Explore the fascinating world of Historical Studies in the Natural Sciences, a journal that reveals the history of science as it has developed since the 18th century. HSNS offers in-depth articles on a wide range of scientific fields, their social and cultural histories and supporting institutions, including astronomy, geology, physics, genetics, natural history, chemistry, meteorology, and molecular biology. Widely regarded as a leading journal in the historiography of science and technology, HSNS increased its publication to five times per year in 2012 to expand its roster of pioneering articles and notable reviews by the most influential writers in the field.
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