Celestial chaos: The new logics of theory-testing in orbital dynamics |
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| Institution: | Rutgers University, 106 Somerset St., 5th Floor, New Brunswick, NJ, United States;The Research Institute, University of Bucharest; Descartes Centre for the History and Philosophy of the Sciences and the Humanities, Utrecht University, the Netherlands;Science in a Changing World graduate program, University of Massachusetts, Boston, USA;University of California, San Diego, USA;342 Rader Hall, Department of History, Philosophy, Politics, International Studies, and Legal Studies, Morehead State University, Morehead, KY 40351, USA;School of Philosophy, University of Southern California, USA |
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| Abstract: | I explore how the nature, scope, and limits of the knowledge obtained in orbital dynamics has changed in recent years. Innovations in the design of spacecraft trajectories, as well as in astronomy, have led to new logics of theory-testing—that is, new research methodologies—in orbital dynamics. These methodologies—which combine resonance overlap theories, numerical experiments, and the implementation of space missions—were developed in response to the discovery of chaotic dynamical systems in our solar system. In the past few decades, they have replaced the methodology that dominated orbital research in the centuries following Newton's Principia. As a result, the kind of knowledge achieved by orbital research has changed: we can know how orbiting bodies in chaotic systems behave, but only over sufficiently short time scales; and we can reliably measure those temporal limitations, using Lyapunov time. |
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