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  1. Kepler's Optical Part of Astronomy (1604): Introducing the Ecliptic Instrument.Giora Hon & Yaakov Zik - 2009 - Perspectives on Science 17 (3):307-345.
    The year 2009 marks the 400th anniversary of the publication of one of the most revolutionary scientific texts ever written. In this book, appropriately entitled, Astronomia nova, Johannes Kepler developed an astronomical theory which departs fundamentally from the systems of Ptolemy and Copernicus. One of the great innovations of this theory is its dependence on the science of optics. The declared goal of Kepler in his earlier publication, Paralipomena to Witelo whereby The Optical Part of Astronomy is Treated , was (...)
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  • Training the Intelligent Eye: Understanding Illustrations in Early Modern Astronomy Texts.Kathleen M. Crowther & Peter Barker - 2013 - Isis 104 (3):429-470.
    ABSTRACT Throughout the early modern period, the most widely read astronomical textbooks were Johannes de Sacrobosco's De sphaera and the Theorica planetarum, ultimately in the new form introduced by Georg Peurbach. This essay argues that the images in these texts were intended to develop an “intelligent eye.” Students were trained to transform representations of specific heavenly phenomena into moving mental images of the structure of the cosmos. Only by learning the techniques of mental visualization and manipulation could the student “see” (...)
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  • The object bias and the study of scientific revolutions: Lessons from developmental psychology.Xiang Chen - 2007 - Philosophical Psychology 20 (4):479 – 503.
    I propose a new perspective on the study of scientific revolutions. This is a transformation from an object-only perspective to an ontological perspective that properly treats objects and processes as distinct kinds. I begin my analysis by identifying an object bias in the study of scientific revolutions, where it takes the form of representing scientific revolutions as changes in classification of physical objects. I further explore the origins of this object bias. Findings from developmental psychology indicate that children cannot distinguish (...)
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  • The Function of Scientific Concepts.Hyundeuk Cheon - forthcoming - Foundations of Science:1-15.
    The function of concepts must be taken seriously to understand the scientific practices of developing and working with concepts. Despite its significance, little philosophical attention has been paid to the function of concepts. A notable exception is Brigandt (2010), who suggests incorporating the epistemic goal pursued with the concept’s use as an additional semantic property along with the reference and inferential role. The suggestion, however, has at least two limitations. First, his proposal to introduce epistemic goals as the third component (...)
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  • A different kind of revolutionary change: transformation from object to process concepts.Xiang Chen - 2010 - Studies in History and Philosophy of Science Part A 41 (2):182-191.
    I propose a new perspective with which to understand scientific revolutions. This is a conversion from an object-only perspective to one that properly treats object and process concepts as distinct kinds. I begin with a re-examination of the Copernican revolution. Recent findings from the history of astronomy suggest that the Copernican revolution was a move from a conceptual framework built around an object concept to one built around a process concept. Drawing from studies in the cognitive sciences, I then show (...)
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