太阳能的来源，约1840-1910:从气象假说到放射性推测

IF 0.8 4区物理与天体物理 Q2 HISTORY & PHILOSOPHY OF SCIENCE

The European Physical Journal H Pub Date : 2016-11-01 DOI:10.1140/epjh/e2016-70045-7

Helge Kragh

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引用次数: 13

摘要

太阳为什么会发光?今天我们知道了这个问题的答案，我们也知道早先的答案是完全错误的。直到19世纪40年代能量守恒定律的出现，太阳能的来源问题才成为物理学和天文学的一个重要组成部分。第一个基于新定律的太阳热理论，由于j.r.。梅尔认为，热量是流星或小行星落入太阳的结果。1854年，H.亥姆霍兹提出了一个不同的、更成功的引力到热能转换的版本，并由W.汤姆森进一步发展。在四十多年的时间里，曾经非常著名的亥姆霍兹-汤姆逊收缩理论被接受为太阳热的标准理论，尽管它预测太阳的年龄只有2000万年。在这个理论逐渐消亡和基于核过程的完全不同的理论之间，有一段时间人们认为放射性可以替代引力收缩。本文讨论了太阳能生产的各种前核思想，包括在维多利亚时代构想的问题的更广泛的相关性。

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The source of solar energy, ca. 1840–1910: From meteoric hypothesis to radioactive speculations

Why does the Sun shine? Today we know the answer to the question and we also know that earlier answers were quite wrong. The problem of the source of solar energy became an important part of physics and astronomy only with the emergence of the law of energy conservation in the 1840s. The first theory of solar heat based on the new law, due to J.R. Mayer, assumed the heat to be the result of meteors or asteroids falling into the Sun. A different and more successful version of gravitation-to-heat energy conversion was proposed by H. Helmholtz in 1854 and further developed by W. Thomson. For more than forty years the once so celebrated Helmholtz-Thomson contraction theory was accepted as the standard theory of solar heat despite its prediction of an age of the Sun of only 20 million years. In between the gradual demise of this theory and the radically different one based on nuclear processes there was a period in which radioactivity was considered a possible alternative to gravitational contraction. The essay discusses various pre-nuclear ideas of solar energy production, including the broader relevance of the question as it was conceived in the Victorian era.

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来源期刊

The European Physical Journal H HISTORY & PHILOSOPHY OF SCIENCE-PHYSICS, MULTIDISCIPLINARY

CiteScore

1.60

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： The purpose of this journal is to catalyse, foster, and disseminate an awareness and understanding of the historical development of ideas in contemporary physics, and more generally, ideas about how Nature works. The scope explicitly includes: - Contributions addressing the history of physics and of physical ideas and concepts, the interplay of physics and mathematics as well as the natural sciences, and the history and philosophy of sciences, together with discussions of experimental ideas and designs - inasmuch as they clearly relate, and preferably add, to the understanding of modern physics. - Annotated and/or contextual translations of relevant foreign-language texts. - Careful characterisations of old and/or abandoned ideas including past mistakes and false leads, thereby helping working physicists to assess how compelling contemporary ideas may turn out to be in future, i.e. with hindsight.