The Copernican Revolution

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The Copernican Revolution Nicolaus Copernicus (1473-1543) De Revolutionibus Orbium Coelestium (1543) [ On the Revolutions of the Celestial Spheres ] The Ptolemaic Cosmology: Geocentric and Geostatic The Sun, Moon, five planets, and the fixed stars of the Celestial Sphere all rotate about a central unmoving Earth. - Claudius Ptolemy (c. 140) The Copernican Cosmology: Heliocentric and Geodynamic The planets including the Earth rotate about the Sun which is at the center of the static Celestial Sphere. The Earth has two motions, an annual motion about the Sun and a diurnal rotation about its polar axis. - Nicolaus Copernicus (1543) Other Dramatis Personae: Aristotle (384-322 BCE) The Classical World View: Aristotelian Physics and the Ptolemaic System Aristarchus (310-230 BCE) An Earlier Heliocentric and Geodynamic Cosmology. (Saint) Thomas Aquinas (1224-1274) Aristotle s Physics, Ptolemaic Cosmology, and Religious Doctrine

Observational Cosmology & The Celestial Sphere The Fixed Stars and the Celestial Sphere The appearance of the nighttime sky: Stars and Constellations History: The Celestial Sphere as a physical reality Time and the the Celestial Sphere Diurnal (daily) Motions: The Celestial Poles. The Sidereal Day. Seasonal (annual) changes - The motions of the Sun Geography and the Celestial Sphere Geographic latitude and the appearance of the sky Geographic longitude and celestial phenomena The Seven Planetes or Luminaries Characterized by motions on the Celestial Sphere The Sun: Motions and the ecliptic. Seasons and the length of the year. The Moon: Motions and phases. The sidereal and synodic months. (Solar-Lunar phenomena: Phases, eclipses, and tides) The Planets: Mercury, Venus, Mars, Jupiter, Saturn,... (Motions, configurations, brightness variations, synodic periods,...)... All basic naked-eye astronomy. But how is this to be explained other than by invoking the actions of the gods?

Theoretical Cosmology A theory consists of a system of hypotheses, their supporting assumptions or definitions, and their logical consequences or predictions. Objectives To construct a model ( hypothesis ) which explains the observations To derive predictions from that model To use these predictions to test the model through additional observations To amend, correct, or reject the model as needed Constraints The model should explain at least some of the observations The model must be consistent with all available observations...and not just those motivating the model The model must have some predictive power (i.e., the hypothesis must be falsifiable) Desiderata The hypothesis should be consistent with the Laws of Nature...whatever they are believed to be. The number of initial or ad hoc assumptions should be small... cf. Ockham s Razor

The Classical World View: Aristotelian Physics The Nature of Matter Animate & Inanimate Matter (Plato, 428-348 BCE) Moving and Nonmoving (Not living and non living ) The Sun, Moon, and planets were animate The Classical Elements Earth, Water, Air, Fire, Ether Compare to: Solid, Liquid, Gas, Plasma, and Quintessence...and the rôle of the ether The Structure of Matter Continuous or Atomic? (Democritus, 450-370 BCE) The Motions of Matter (Aristotle, 384-322 BCE) Celestial Matter and Mundane Matter Impetus: The urge to stop Celestial motions and the Prime Mover: Circular and Uniform Motion

The Nature of Light Light as Material Particles Photons and color Light and heat The Behavior of Light Shadows, etc. : Light travels in straight lines Brightness and distance The Speed of Light: Instantaneous? Transparent materials and atomism Religious & Theological Issues The Meddlesome Gods of Alexandria, Athens, and Rome

Aristotle and the Earth A Spherical Earth Elevation and visibility Sinking ships and departing camels Geographic latitude and the appearance of the sky Geographic longitude and the timing and location of celestial events Lunar eclipses and the Earth s shadow...as well as: Philosophical considerations, and the distribution of elephants A Static Earth Absence of a sense of motion? Absence of the requisite/expected wind? The trajectories of falling objects: The lack of impetus....but most significantly: The absence of an observable stellar parallax A Geocentric Universe There must be a center! There is an attraction to the center ( gravitas ) The direction of down and the shape of the Earth

The Aristotelean Universe (c. 300 BCE) The Sun, Moon, and Planets in uniform circular motion about a static spherical Earth Quantification: Early Astronomical Measurements Aristarchus of Samos (310-230 BCE) Geometrical Measurements of the relative distances and sizes of the Sun, Moon, and Earth (... and a Heliocentric view of the universe) Eratosthenes of Cyrene (276-194 BCE) Determination of the sizes of the Earth Hipparchus of Rhodes (190-120 BCE) Astrometry, The Astrolabe, Precession,...

The Ptolemaic Cosmology Claudius Ptolemaeus, a.k.a. Ptolemy (c. 90 - c.168 CE) The Almagest - The Great Syntaxis of Astronomy Starting Assumptions A Spherical Earth (Observationally based - Aristotle) A Static Earth (Aristotelian Physics. The Stellar Parallax) An Earth-Centered Universe (A center of attraction ) Uniform and Circular Celestial Motions (Requirements of perfection ) A Support Structure and a Prime Mover (Aristotelean Physics.) (The views of Democritus and Aristarchus have been scornfully discounted.) Ptolemaic Hypothesis A configuration of circles and epicyclic motions is constructed to explain: The observed apparent motions of the Sun, Moon, Planets, and the Fixed Stars of the Celestial Sphere. The observed sequence of Lunar phases, Lunar and Solar Eclipses, and the periodic brightness variations of the planets (The resulting Ptolemaic System seemed to accomplish all of the above excepting the last item - explaining planetary brightness variations.)

The Geometric Basis of the Ptolemaic Model Hipparchus (c. 190-120 BCE) Describing the motions of the Sun and Moon Deferents and Epicycles (Offsets, Eccentrics, and Equant Points) Fitting Parameters: Dimensions and Tilts, Periods and Phases Successes and Failures Basic Idea Added Complexities Digression: Hipparchus other observations, measurements, and discoveries. (Star Maps, Stellar magnitudes, Length of the Year, Precession of the Equinoxes,...)

The Ptolemaic System The Almagest ( c. 120 CE) (Earth, Moon, Inferior & Superior Planets, the Sun, and the Celestial Sphere) The Celestial Sphere rotates clockwise (westward) about the Earth with a period of one sidereal day. Motions in the above figure are then counterclockwise with respect to the Celestial Sphere. The Sun s period relative to the fixed stars is the sidereal year.

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