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John Buridan (d. circa 1360) was one of the most talented and influential philosophers of the later Middle Ages. He spent his career as a master in the Arts Faculty at the University of Paris, producing commentaries and independent treatises on logic, metaphysics, natural philosophy, and ethics. His Questions Commentary on the eight books of Aristotle's Physics is the most important witness to Buridan's teachings in the field of natural philosophy. The commentary was widely read during the later Middle Ages and the Renaissance. This volume presents the first critical edition of books III and IV of the final redaction of Buridan's Questions Commentary on the Physics. The critical edition of the Latin text is accompanied by a detailed guide to the contents of Buridan's questions.
Physics --- Motion --- Infinite --- Place (Philosophy) --- Vacuum --- Time --- Kinetics --- Dynamics --- Kinematics --- Hours (Time) --- Geodetic astronomy --- Nautical astronomy --- Horology --- High vacuum technique --- Electric discharges through gases --- Philosophy --- Infinity --- Finite, The --- Aristotle. --- Aristoteles.
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Electric discharges through gases --- -Plasma diagnostics --- -Plasma radiation --- -Bremsstrahlung --- Cyclotron resonance --- High temperature plasmas --- Radiation --- Diagnostics, Plasma (Ionized gases) --- Plasma measurement techniques --- Physical measurements --- Plasma (Ionized gases) --- Plasma probes --- Electricity --- Gases, Electric discharges through --- Cathode rays --- Electrons --- Ions --- Vacuum --- Vacuum-tubes --- Congresses --- Discharges through gases --- Plasma diagnostics --- Plasma radiation --- Congresses. --- -Congresses --- Bremsstrahlung
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Electric discharges through gases --- Breakdown (Electricity) --- Plasma (Ionized gases) --- Plasma (Gaz ionisés) --- Congresses --- Congrès --- Plasma (Gaz ionisés) --- Congrès --- Plasmas (gaz ionisés) --- Décharges électriques dans les gaz --- Amorçage (électricité) --- Plasmas (gaz ionisés) --- Décharges électriques dans les gaz --- Amorçage (électricité)
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This book resulted from the NATO Advanced Research Workshop on “Electron Kinetics and Applications of Glow Discharges,” held in St. Petersburg, Russia, on May 19-23, 1997. Glow discharges have found widespread applications in many technological processes from the manufacture of semiconductors, to recent developments in na- technology, to the traditional fields of gas lasers, and discharge lamps. Consequently, the interest in the physics of glow discharges has experienced yet another resurgence of interest. While the non-equilibrium character of glow discharges is widely accepted, the opinion still prevails that the main features can be captured by fluid models, and that kinetic treatments are only required for the understanding of subtle details. The erroneousness of this belief is demonstrated by the failure of fluid models to describe many basic features of glow discharges such as, for instance, electrode phenomena, striations, and collisionless heating effects. An adequate description of glow discharges thus has to be of kinetic nature.
Electrons -- Congresses. --- Glow discharges -- Congresses. --- Glow discharges --- Electrons --- Physics --- Physical Sciences & Mathematics --- Nuclear Physics --- Electricity & Magnetism --- Physics. --- Nuclear physics. --- Heavy ions. --- Hadrons. --- Nuclear Physics, Heavy Ions, Hadrons. --- Congresses --- Ions --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Positrons --- Cold cathode discharges --- Discharges, Cold cathode --- Discharges, Gas --- Discharges, Glow --- Gas discharges --- Joshi effect --- Electric discharges --- Electric discharges through gases --- Constitution
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Loin d’être simplement écarté par principe, loin même d’être un thème marginal ou une difficulté à éviter, le vide est tout au long du Moyen Âge l’objet de nombreuses analyses. Les contributions rassemblées dans cet ouvrage examinent quelques-uns des principaux développements qui prennent le vide comme objet ou comme moyen, dans le monde arabe comme dans le monde médiéval latin. Ils traitent du vide en dehors du monde comme du vide à l’intérieur du monde, des différentes définitions du vide, de son rapport au lieu ou bien au mouvement. Ils concernent la physique ou la cosmologie, mais aussi la biologie. Nous avons souhaité dédier ces études à Edward Grant qui, le premier, a mis en lumière l’étendue des problèmes scientifiques traités par les Médiévaux à l’aide du concept de vide.
Metaphysics --- Philosophy of science --- Aesthetics --- anno 500-1499 --- Physical science --- Science, Medieval. --- Vacuum. --- Philosophy of nature --- History --- Science, Medieval --- Vacuum --- Physique --- Sciences médiévales --- Vide (physique) --- Sciences physiques --- Sciences médiévales. --- Philosophie --- Histoire. --- High vacuum technique --- Vacuüm --- Vide (Physique) --- Emptiness (Philosophy) --- Sciences médiévales --- Vide (Philosophie) --- Philosophie de la nature --- Histoire --- Grant, Edward, --- Electric discharges through gases --- Medieval science --- Nature --- Nature, Philosophy of --- Natural theology --- Philosophy --- Physics --- Middle Ages, 500-1500 --- Philosophie. --- Sciences médiévales. --- Physical science - History - To 1500 --- Philosophy of nature - History - To 1500
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