Claudius PtolemyPage
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Hipparchus invented the table of chords, a list of the ratio of the size of the chord of a circle to its radius associated with the angle from the centre of the circle that spans the chord.
The equivalent of the sine function in trigonometry.
Slide 21
.PNG "Precession of the equinoxes")
Precession of the equinoxes
Hipparchus also calculated that there is a very slow shift in the heavens that makes the solar year not quite match the siderial (“star”) year.
This is called precession of the equinoxes. He noted that the equinoxes come slightly earlier every year.
The entire cycle takes about 26,000 years to complete.
Hipparchus was able to discover this shift and to calculate its duration accurately, but the ancients had no understanding what might be its cause.
Slide 22
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The Problem of the Planets, again
300 years after Hipparchus, another astronomer uses his calculating devices to create a complete system of the heavens, accounting for the weird motions of the planets.
Finally a system of geometric motions is devised to account for the positions of the planets in the sky mathematically.
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Claudius Ptolemy
Lived about 150 CE, and worked in Alexandria at the Museum.
Slide 24
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Ptolemy’s Geography
Like Eratosthenes, Ptolemy studied the Earth as well as the heavens.
One of his major works was his Geography, one of the first realistic atlases of the known world.
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The Almagest
Ptolemy’s major work was his Mathematical Composition.
In later years it was referred as The Greatest (Composition), in Greek, Megiste.
When translated into Arabic it was called al Megiste.
When the work was translated into Latin and later English, it was called The Almagest.
Slide 26
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The Almagest, 2
The Almagest attempts to do for astronomy what Euclid did for mathematics:
Start with stated assumptions.
Use logic and established mathematical theorems to demonstrate further results.
Make one coherent system
It even had 13 books, like Euclid.
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Euclid-like assumptions
The heavens move spherically.
The Earth is spherical.
Earth is in the middle of the heavens.
The Earth has the ratio of a point to the heavens.
The Earth is immobile.
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Plato versus Aristotle
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Contents
- Euclid’s Elements at work
- Eratosthenes of Cyrene
- “Beta”
- Using Euclid
- His data
- Calculating the size of the Earth
- Eratosthenes’ working assumptions
- A slight correction
- What, exactly, are stadia?
- Stadium lengths
- Comparative figures
- An astounding achievement
- Hipparchus of Rhodes
- The Table of Chords
- Precession of the equinoxes
- The Problem of the Planets, again
- Claudius Ptolemy
- Ptolemy’s Geography
- The Almagest
- Euclid-like assumptions
- Plato versus Aristotle
- Ptolemy’s Universe
- The Eudoxus-Aristotle system for the Planets
- The Ptolemaic system
- Epicycles and Deferents
- Saving the Appearances
- How did it fit the facts?
- Ptolemy’s system worked
- But did it make any sense?
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