One of the most impressive things found in this period was the Astrolabe of Antikithyra. Some sponge collectors found it in 1901 near the Antikithyra island. In the Greek research centre 'Demokritos' professor Derek de Solla Piere (from Yale university) and Har. Karakalos examined it with X-rays and found an amazingly complex construction. It is the most complex mechanical construction until 1200 A.D.!
The function of a common astrolabe is to measure the altitudes of celestial bodies, from which time the observer's latitude could be determined, too. The measurement of the altitude of the North Star yields the latitude and the altitude of the Sun and stars yields the time.
The instrument fount at Antikithyra has a lot of metal wheels arranged in a way that simulates the movement of the stars and does the required calculations! Who designed it and who made it with such accuracy remains a mystery. But it is clear enough that is not an astrolabe but a kind of astrological calculator.
In the astrolabe there were 27 different circular gears that were connected all together and were put into movement by a hand shaft. Everything was inside a wooden box with possible dimensions of 35 x 17 x 10 cm. On the front face there were two disks with indications about the date of the month according the sun, and the date according the moon. On the back face there were two other disks, one showing the moon month and the other the moon eclipses.
Maybe these things seem simple but if you want to calculate them be prepared for calculations with six- decimal- digit accuracy!
Another technique appeared on the astrolabe for the first time in the history of engineering was the use of the differential gear. The rotation speed of the in shaft equals to the difference of the speed of the two output shafts. Nothing like that reappeared in any known machinery until 19th century!
The differential gear was used on that Astrolabe in order to allow the connection of sun to solar eclipses.
The astrolabe was probably first used by the ancient Greek astronomer Hipparchus.*
Some people say that Archimedes has used some things like this, but a lot different from what it is found.
It is at least constituted from 29 cogwheels, various sizes, which entered in movement simultaneously from handle. Per their is in included also a differential cogwheel.
The body they studied so much nuclear natural X. Kara'kalos, who did produce radiography the mechanism big clearness, what Derek Solla Price, that completed with his le'ti 1974. According to the conclusions of Price? it is a astronomical body of big precision, that determines the movements Of Sun and the Moon in the Zodiac circle. It was very probably manufactured the 80 p.H., in Rhodes, from the faculty of Neptunium. The scientific and historical value of this body is enormous, after similar his it has not been found nowhere elsewhere.
*Hipparchus discovered the precession of the equinoxes. His calculation of the length of the year measured by the sun was within 6.5 minutes of modern measurements. Hipparchus devised a method of locating geographic positions by means of latitudes and longitudes. He catalogued, charted, and calculated the brightness of perhaps as many as 1000 stars. Hipparchus also compiled a table of trigonometric chords that became the basis for modern trigonometry.