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Published byMilo Armstrong Modified over 9 years ago
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From the Earth-centered to the Sun-centered Model Tuesday, January 8
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geocentric For 2000 years, geocentric model for the universe was widely assumed. Spherical Earth at center of universe Moon, Sun, planets, between Earth & stars Stars affixed to celestial sphere Dante, AD 1300
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Ptolemy Most famous advocate of geocentric model: the astronomer Ptolemy (2 nd century AD). motion Developed elaborate model to describe motion of stars, Sun, Moon, & planets.
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Stars: Circular motion around north celestial pole (near the North Star, Polaris) sidereal day Time to complete circle = 23 hours, 56 min. = 1 sidereal day
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as if Stars look as if they were glued to rigid spherical shell rotating once every 23 hr, 56 min. (You can’t tell, without a telescope, that some stars are closer than others.)
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Andromeda Galaxy: 2 million light-years away Comet Hale-Bopp: 10 light-minutes away No sense of depth!
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Sun: Circular motion around celestial pole: part of circle is below horizon, so we say Sun “rises” and “sets”. Time to complete circle = 24 hours.
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Observed Observed motions of the Sun: humanity’s first clock. solar day 1 solar day = time from one noon to the next = 24 hours Sunrise Noon Sunset
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IF IF the Sun orbited the Earth once per day:Sunrise Noon Sunset Midnight ×Observer
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× × × SINCE SINCE the Earth rotates once per day:NoonSunsetMidnightSunrise ×
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either Observed motions of the Sun can be described if either or 1) The Sun goes around the Earth once per day, or 2) The Earth rotates about its axis.
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Q: Why did ancient astronomers believe the Earth is not moving? A: Well, do you feel any motion? Rotation speed at Earth’s equator = circumference / rotation period = 40,000 kilometers / 24 hours = 1667 kilometers/hour
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stars Sun Moon Describing motions of stars and Sun (and also Moon) was fairly simple in the geocentric model. planets Describing motion of planets was very difficult.
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Planet = “Wanderer” To naked eye, a planet looks like a star - a tiny blob of light.
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motion Planets are distinguished by their motion relative to stars. ↑ NORTH Planets usually move west to east, but sometimes east to west (retrograde), relative to stars.
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Ptolemy’s explanation of retrograde motion: epicycle Planet (P) moves in a small circle called the epicycle. deferent Center of epicycle (A) moves in a large circle called the deferent.
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Combination of small and large circles creates “loop-the-loop” retrograde motion.
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Detailed structure of Ptolemy’s geocentric model: Earth Complicated !
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A bold minority opinion: Aristarchus (3 rd cent. BC) proposed that the Earth rotates on its axis & goes around the Sun. heliocentric First heliocentric (Sun-centered) model.
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rejected Heliocentric model was rejected by the contemporaries of Aristarchus. Aristarchus was accused of impiety. Why did Aristarchus bother with a heliocentric model, given the grief he received?
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Questions posed by Aristarchus: How far away is the Sun? How large is the Sun? 110 times A sphere (like the Sun) will be 1/2° across when its distance is 110 times its diameter.
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How far away is the Sun? Farther away than the Moon! between Moon comes between Sun and Earth during a solar eclipse. Moon, like Earth, is an opaque sphere, capable of blocking light.
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Phases of the Moon: The Moon is an opaque sphere illuminated by the Sun. s E M Half close to Sun is illuminated. Half away from Sun is dark.
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Gibbous, crescent shapes: result of perspective.
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How Aristarchus found the relative distances of Sun and Moon. “First quarter” or “last quarter” Moon: we see bright portion of Moon as a perfect half-circle.
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must be When we see the Moon as a half-circle, Earth-Moon-Sun angle must be 90°. measured When Aristarchus saw the Moon as a half- circle, he measured the Moon-Earth-Sun angle to be 87°. 90° 87°
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Trigonometry Alert! x y θ
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Aristarchus: Sun is 19 times farther away (and thus 19 times bigger) than Moon. (This is actually an underestimate of the Sun’s immense size.)
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Aristarchus: Earth is 3 times size of Moon (from size of Earth’s shadow on Moon).
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Despite the arguments of Aristarchus (“Why should huge Sun orbit tiny Earth?”), heliocentric model ignored for 18 centuries. Reviver of “heliocentrism”: Nicolaus Copernicus (Polish: 1473 – 1543)
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Basic structure of Copernicus’ model: Earth Sun
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Geocentric model (Ptolemy): ◦ Earth in central location ◦ Celestial sphere rotating about axis ◦ Sun orbiting around Earth Heliocentric model (Copernicus): ◦ Sun in central location ◦ Earth rotating about axis ◦ Earth orbiting around Sun
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Thursday’s Lecture: Reading: Chapter 1 Planets and Stars and Galaxies (Oh my!)
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