Aristotle Essay, Research Paper To the modern reader, Aristotle’s views on astronomy, as presented in Metaphysics, Physics, De Caelo (On the Heavens) and Simplicius’ Commentary, will most likely seem very bizarre, as they are based more on a priori philosophical speculation than empirical observation.
Aristotle Essay, Research Paper
To the modern reader, Aristotle’s views on astronomy, as presented in Metaphysics, Physics, De Caelo (On the Heavens) and Simplicius’ Commentary, will most likely seem very bizarre, as they are based more on a priori philosophical speculation than empirical observation. Although Aristotle acknowledged the importance of “scientific” astronomy – the study of the positions, distances and motions of the stars – he nevertheless treated astronomy in the abstract, linking it to his overall philosophical world picture. As a result, the modern distinction between physics and metaphysics is not present in Aristotle, and in order to fully appreciate him we must try to abandon this pre-conception. Aristotle argued that the universe is spherical and finite. Spherical, because that is the most perfect shape; finite, because it has a center, viz. the center of the earth, and a body with a center cannot be infinite. He believed that the earth, too, is a sphere. It is relatively small compared to the stars, and in contrast to the celestial bodies, always at rest. For one of his proofs of this latter point, he referred to an empirically testable fact: if the earth were in motion, an observer on it would see the fixed stars as moving, just as he now observes the planets as moving, that is from a stationary earth. However, since this is not the case, the earth must be at rest. To prove that the earth is a sphere, he produced the argument that all earthly substances move towards the center, and thus would eventually have to form a sphere. He also used evidence based on observation. If the earth were not spherical, lunar eclipses would not show segments with a curved outline. Furthermore, when one travels northward or southward, one does not see the same stars at night, nor do they occupy the same positions in the sky. (De Caelo, Book II, chapter 14) That the celestial bodies must also be spherical in shape, can be determined by observation. In the case of the stars, Aristotle argued that they would have to be spherical, as this shape, which is the most perfect, allows them to retain their positions. (De Caelo, Book II, chapter 11) By Aristotle’s time, Empedocles’ view that there are four basic elements – earth, air, fire and water – had been generally accepted. Aristotle, however, in addition to this, postulated a fifth element called aether, which he believed to be the main constituent of the celestial bodies. This divine element, he believed, is uncompounded, ungenerated, eternal, unalterable, and neither heavy nor light. It can be found in its purest form in the celestial regions, but becomes adulterated in the area below the moon. (De Caelo, Book I, chapter 2) Aristotle’s view of the universe was hierarchical, and he made a sharp distinction between the sublunar world of change, and the eternal and immutable heavens.
Aristotle, like Eudoxus and Callippus before him, believed that each planet followed the path laid out by a certain number of spheres. Callippus had postulated 33 spheres in all, 4 each for Saturn and Jupiter, 5 each for Mars, Venus, Mercury, the sun and the moon. The problem with this model, however, was that, according to Aristotle, it did not explain how the motion of the outer spheres was to be prevented from interfering with the motion of the inner spheres. Aristotle therefore attempted a mechanical explanation, and postulated 22 counteracting spheres, which would set things in balance. It is generally held that Aristotle’s addition of these counteracting spheres complicated rather than cleared up the problem of planetary motion. Aristotle’s many-faceted theory of motion was a fundamental part of his world picture. The complexity of this theory is evidenced in the numerous interpretations offered by modern scholars. Here only the bare bones of it will be presented.
According to Aristotle, there were three kinds of motion: rectilinear, circular and mixed. The four elements of the sublunar world tend to move in straight lines: earth downward, fire upward, water and air falling in between. Aether, on the other hand, naturally moves in circles. He further maintained that everything that is moving has to be set in motion by something else, and thus in order to avoid an infinite regress, he posited a first mover. Aristotle’s descriptions of such a “prime mover” demonstrate how he mixes physics with metaphysics. In De Caelo, Aristotle equated the prime mover of all things with the sphere of the fixed stars, which was itself moving with unceasing motion. (De Caelo, Book I, chapter 9) In the Metaphysics, however, he placed an unmoved prime mover “behind” the fixed stars. He describes this transcendent first mover as eternal and without magnitude; he says that it causes circular movement, and that is the kind of movement that is most perfect, since it has no beginning or end; he states that it is good, and its activity is the highest form of joy. It seems that at one point Aristotle thought of the prime mover as somehow an integral part of the universe itself, and at another as existing outside space and time. These differences may mirror different objectives that Aristotle had at various points in his career. Aristotle’s hierarchical model of the universe had a profound influence on medieval scholars, who modified it to correspond with Christian theology. Saint Thomas Aquinas, for example, re-interpreted the prime movers as angels. Backed up by religious authority, Aristotle’s model lasted for centuries. Unfortunately, this had the effect of restraining the progress of science, as few people dared to challenge the authority of the church. Nevertheless, we can say of Aristotle that he made a contribution to astronomy simply by starting to ask certain questions about the universe, thereby stimulating other minds to do the same.
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