Copernicus Contra Kuhn

Epistemology & Philosophy of Science Pub Date : 1900-01-01 DOI:10.5840/eps202259462

I. Dmitriev

{"title":"Copernicus Contra Kuhn","authors":"I. Dmitriev","doi":"10.5840/eps202259462","DOIUrl":null,"url":null,"abstract":"T. Kuhn’s theory of scientific revolutions has repeatedly been the subject of criticism. It is important to note that Kuhn pays very limited attention to the phenomenon of the scientific revolution itself, comparing the revolution either with a religious conversion or with a gestalt switch. Such comparisons, however, are very superficial. This paper outlines a new understanding of the scientific revolution as a result of the resonance of the intellectual trends of the early modern period. It was the quasi-simultaneous action of various factors (from the great geographical discoveries to social cataclysms and the religious Reformation) that led to revolutionary changes in natural philosophy, which, in turn, gave rise (already in the XVIIIth century) to the actual scientific revolution. In addition, the article shows that the Copernican Revolution cannot be described within the model of scientific revolution developed by T. Kuhn. Ptolemy’s theory was mathematically constructed so that it could not make inaccurate predictions of planetary motion, because – as we are now clear – the function characterizing the trajectory of planetary motion was actually represented as a Fourier series. The Copernican revolution was not a Kuhn-type scientific revolution, nor was it caused by the empirical failures of Ptolemaic astronomy (i.e. the accumulation of anomalies turning into a crisis). Events unfolded according to a different scheme. Copernicus set out to carry out the principle of the uniform circular motion of the planets more consistently than had been done in Ptolemy’s theory, at the same time presenting to this theory those requirements of an aesthetic and methodological order, which the cognitively fragmented system of Ptolemy, for all its flexibility, could not satisfy and, by the conditions of its creation, could not satisfy. In addition, the article shows that Copernicus, in constructing his heliocentric theory, was essentially seeking answers to the challenges that Alberti’s artificial perspective and Nicholas of Cusa’s theological speculation posed to the visual experience in the sixteenth century.","PeriodicalId":369041,"journal":{"name":"Epistemology & Philosophy of Science","volume":"33 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Epistemology & Philosophy of Science","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.5840/eps202259462","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

T. Kuhn’s theory of scientific revolutions has repeatedly been the subject of criticism. It is important to note that Kuhn pays very limited attention to the phenomenon of the scientific revolution itself, comparing the revolution either with a religious conversion or with a gestalt switch. Such comparisons, however, are very superficial. This paper outlines a new understanding of the scientific revolution as a result of the resonance of the intellectual trends of the early modern period. It was the quasi-simultaneous action of various factors (from the great geographical discoveries to social cataclysms and the religious Reformation) that led to revolutionary changes in natural philosophy, which, in turn, gave rise (already in the XVIIIth century) to the actual scientific revolution. In addition, the article shows that the Copernican Revolution cannot be described within the model of scientific revolution developed by T. Kuhn. Ptolemy’s theory was mathematically constructed so that it could not make inaccurate predictions of planetary motion, because – as we are now clear – the function characterizing the trajectory of planetary motion was actually represented as a Fourier series. The Copernican revolution was not a Kuhn-type scientific revolution, nor was it caused by the empirical failures of Ptolemaic astronomy (i.e. the accumulation of anomalies turning into a crisis). Events unfolded according to a different scheme. Copernicus set out to carry out the principle of the uniform circular motion of the planets more consistently than had been done in Ptolemy’s theory, at the same time presenting to this theory those requirements of an aesthetic and methodological order, which the cognitively fragmented system of Ptolemy, for all its flexibility, could not satisfy and, by the conditions of its creation, could not satisfy. In addition, the article shows that Copernicus, in constructing his heliocentric theory, was essentially seeking answers to the challenges that Alberti’s artificial perspective and Nicholas of Cusa’s theological speculation posed to the visual experience in the sixteenth century.

查看原文本刊更多论文

哥白尼反对库恩

库恩的科学革命理论一再受到批评。值得注意的是，库恩对科学革命现象本身的关注非常有限，他将科学革命与宗教皈依或格式塔转换进行了比较。然而，这种比较是非常肤浅的。本文概述了一种对科学革命的新认识，这是近代早期知识分子趋势的共鸣的结果。正是各种因素(从伟大的地理发现到社会灾难和宗教改革)几乎同时发生的作用，导致了自然哲学的革命性变化，而这些变化反过来又引发了(已经在18世纪)真正的科学革命。此外，文章表明哥白尼革命不能用库恩发展的科学革命模型来描述。托勒密的理论是用数学方法构建的，因此它不能对行星运动做出不准确的预测，因为——正如我们现在清楚的那样——描述行星运动轨迹的函数实际上是用傅立叶级数来表示的。哥白尼革命不是库恩式的科学革命，也不是由托勒密天文学的经验失败(即异常现象的积累转变为危机)引起的。事情按照不同的计划展开。哥白尼开始执行行星匀称圆周运动的原理，比托勒密的理论更一致，同时提出了美学和方法论秩序的要求，托勒密的认知支离破碎的系统，尽管它的灵活性，不能满足，而且，由于它的创造条件，不能满足。此外，文章还表明，哥白尼在构建日心说时，本质上是在寻求答案，以应对阿尔伯蒂的人工视角和库萨的尼古拉斯的神学推测对16世纪视觉体验构成的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Epistemology & Philosophy of Science

自引率

0.00%

发文量